 SELF-PORTABLE DEVICE AND METHOD OF CONTROLLING THE SAME
专利摘要:
A self-carrying device (200) comprising a touch screen (251); a wireless communication unit configured to communicate with an external terminal including an electronic purse (SE: secure element), the external terminal being wirelessly connected to the wearable device (200); and a controller configured to perform receipt of a preset user gesture, receiving information relating to an electronic purse account from the external terminal in response to the preset user gesture, displaying the information received on the touch screen (251), and processing an NFC payment (near field communication) using the information displayed on the touch screen (251). 公开号:FR3024564A1 申请号:FR1556364 申请日:2015-07-06 公开日:2016-02-05 发明作者:Dongju Lee 申请人:LG Electronics Inc; IPC主号:
专利说明:
[0001] The present invention relates to a self-attachable device capable of performing a payment function by using a near-field wireless communication module and a method of controlling the same. this one. Mobile terminals have become more and more functional. Examples of such functions include data communications, voice communications, image and video acquisition with a camera, audio recording, playback of music files with a speaker system, and displaying images and videos on a display. Some mobile terminals include additional features for playing games, while other terminals are configured as media players. More recently, mobile terminals have been configured to receive broadcast and multicast signals for viewing content such as videos and television programs. Mobile terminals have evolved from portable devices to self-carrying devices that can be worn on oneself that can be placed on the human body. Such self-wearing devices include smart watches, smart glasses, and head-mounted displays (HMDs). In addition, efforts are being made to provide various financial services and payment services by adopting near-field communication technology, such as NFC (Near Field Communication), using devices that can be worn so that they can be worn on one's own body. . Here, NFC (Near Field Communication) is a contactless short-range wireless communication generally employing a 13.56 MHz frequency band and allowing data transmission between NFC chip terminals over short distances of about 10 centimeters. In addition, in order to perform various financial services and payment services using NFC technology, devices that may be worn so as to be worn on oneself must first retain information relating to a payment method (for example, a credit card ). In this case, in case of loss of the payment method, the information stored in the payment method can be pirated. In particular, the device that can be worn on one, which is placed on the body of the user, has a relatively small size and therefore consumes very little energy. The function of storing payment method information on a SIM or UICC is selectively included or excluded. [0002] One aspect of the detailed description is to provide a pay-per-view device for making a payment using a near-field communication technique without first storing information about a payment method and a method of controlling the device. can be worn on you. [0003] Another aspect of the detailed description is to provide a wearable device for effectively performing payment using a near field technique by sharing or communicating a charged amount of money to a second device and a method of control of it. [0004] To realize these and other advantages, in accordance with the purpose of this memo, as embodied and broadly described herein, there is provided a self-carrying device comprising: a touch screen; a wireless communication unit configured to communicate with a second terminal equipped with an electronic purse (SE: secure element), the second terminal being connected to the device that can be carried on oneself; and a controller configured to receive information about an electronic purse (SE) account from the second terminal upon detecting a preset user gesture and to display the received information on a region of the screen in which the controller is configured to perform an NFC (Near Field Communication) payment processing command using the information displayed on the touch screen. In one embodiment, the preset user gesture includes a first user gesture and a second user gesture, and wherein the controller is configured to perform a send command to the second terminal of a request. transmitting the electronic purse account (SE) account information upon detection of the first user gesture, and the controller is configured to perform a display command of the received information from the second terminal on the screen touch depending on the request when detecting the second user gesture. In one embodiment, the controller is configured to enable an NFC function for NFC payment and to provide feedback indicating that the NFC function is activated upon detection of the preset user gesture. In one embodiment, the wear-attachable device further includes a sensing unit configured to detect that the wear-on device is rotated in different directions from each other while the device being able to be worn. is carried on a user, wherein the controller is configured to perform a control operation corresponding to the first user gesture upon detecting that the wearable device is rotated in a first direction, and the controller is configured to execute a command operation corresponding to the second user gesture upon detecting that the reach-able device is rotated in a second direction while the control operation corresponding to the first user gesture is in progress execution. In one embodiment, the controller is configured to provide feedback corresponding to a response from the second terminal as a function of the request. [0005] In one embodiment, the feedback comprises a combination of at least one or more of a vibration, a sound and a screen change on the touch screen, and wherein, when the link with the second terminal fails, the controller is configured to deliver feedback corresponding to failure and to deliver first screen information indicating a cause of failure on the touch screen. In one embodiment, the controller is configured to display balance information corresponding to the electronic purse (SE) account on a region of the touch screen when the link with the second terminal is maintained while the gesture of Preset user is detected. [0006] In one embodiment, the controller is configured to output second screen information indicative of an NFC payment processing result to the touch screen region upon re-detection of the preset user gesture at the end of the touch screen region. NFC payment based on information displayed on the touch screen. [0007] In one embodiment, the touch screen includes a first region and a second region distinguished from the first region, and wherein the controller is configured to, at the end of the NFC payment, display an NFC payment amount on the first region. , update the account information of the electronic purse (SE) on the basis of the NFC payment amount and display the updated information on the second region. In one embodiment, the controller is configured to, when a level of the updated information is not greater than a reference level, providing guidance information to guide the loading of a balance corresponding to the door account. electronic money (SE) on the touch screen area. In one embodiment, the controller is configured to, at a predetermined time after the end of the NFC payment, switch the NFC function for the NFC payment to a disabled state and release the link with the second terminal or change a communication network now. linking to another network. In one embodiment, the wear-attachable device further includes a power supply unit configured to provide operating power to the carry-on device, wherein the controller is configured to, when 'a battery included in the power supply unit is not greater than a reference level, display the electronic wallet (SE) account information only on the touch screen area and switch a second region other than the region in a disabled state. In one embodiment, the controller is configured to recognize second connectable terminals and is configured to, when the preset user gesture is detected, link to a second terminal corresponding to the preset user gesture among the second recognized terminals. In one embodiment, the carry-on device further comprises a compartment unit formed to equip an electronic purse (SE), wherein the controller is configured to, when the preset user gesture is detected during that the device that can be worn on one is connected to the second terminal, display on the touch screen first information relating to an account of a first electronic wallet equipped in the compartment unit and second information relating to an account a second electronic purse equipped in the second terminal so that the first information can be distinguished from the second information. [0008] In one embodiment, the touch screen includes a first region and a second region distinguished from the first region, and wherein the controller is configured to perform an NFC payment processing command using the first information, and, when the NFC payment is completed, the controller is configured to make a command to display an NFC payment amount on the first region, update the first information based on the NFC payment amount, and display the updated information on the second region. In one embodiment, the controller is configured to, when the first information is insufficient to process the NFC payment, perform an NFC payment processing command using the first information and the second information, and the controller is configured to, when the NFC payment is completed, place a display order of the NFC payment amount on the first region, update the first information and the second information based on the NFC payment amount, and display the updated information on the second region. In one embodiment, the controller is configured to, when a third user gesture is entered while the first and second information is displayed on the touch screen, performing a transmission control of at least a portion of the a balance of an account corresponding to each other of an account of the first electronic wallet and an account of the second electronic purse. In one embodiment, the third user gesture is a preset user gesture, wherein the on-reach device further comprises a sensing unit configured to detect an inclination corresponding to the third user gesture, and wherein the controller is configured to determine an account to which at least the portion of the balance is transmitted and a balance degree based on at least one of a direction and a degree of inclination corresponding to the third user gesture. [0009] In one embodiment, the third user gesture is a touch input applied to the touch screen, wherein the touch screen includes a first region displaying the first information and a second region displaying the second information, and wherein the controller is configured to display an image object dividing the first region and the second region on the touch screen, determine the account to which at least a portion of the balance is transmitted, and the balance degree based on the entry of touch applied to the image object, and display the image object at a point where the touch input is released. To achieve these and other advantages, in accordance with the subject matter of this specification, as embodied and broadly described herein, there is provided a method of controlling a self-wearing device, the self-wearing device being formed to be placed on a particular portion of a body, the method comprising: receiving information relating to an account of an electronic purse (SE: secure element) equipped in a second terminal connected to the wearable device from the second terminal when the wearable device detects a pre-set user gesture; displaying information received on a region of a touch screen; and executing an NFC (Near Field Communication) payment processing command using the information displayed on the touch screen. The scope of applicability of the present application will become more apparent from the detailed description below. Nevertheless, it should be understood that the detailed description and specific examples, while indicating preferred embodiments of the invention, are presented for illustrative purposes only, since various changes and modifications in the spirit and the scope of the invention will become apparent to those skilled in the art from the detailed description. The accompanying drawings, which are included to provide a better understanding of the invention and which are incorporated herein, exemplify exemplary embodiments and, with the description, serve to explain the principles of the invention. The present invention will now be described in detail with reference to the accompanying drawings in which: FIG. 1A is a block diagram illustrating a mobile terminal associated with a self-carrying device according to an embodiment of the present invention; Fig. 1B is a view illustrating a watch-like terminal as an example of a self-attachable device according to the embodiment of the present invention; Fig. 2 is a view illustrating a wireless communication system in which a wearable device can operate according to an embodiment of the present invention; Fig. 3 is a view illustrating a payment system using a self-attachable device according to an embodiment of the present invention; FIG. 4 is a view illustrating an example in which the device that can be worn on oneself is connected to a second terminal equipped with an electronic purse according to one embodiment of the present invention; Fig. 5 is a flowchart illustrating an exemplary method of operating a self-attachable device according to an embodiment of the present invention; FIG. 6 is a conceptual view illustrating the flowchart shown in FIG. 5; FIGS. 7A and 7B are conceptual views illustrating a method by which a self-carrying device is connected to a second terminal via a plurality of touch inputs or gesture input according to an embodiment of the present invention; Fig. 7C is a conceptual view illustrating a method by which a self-carrying device is connected to a second terminal via NFC according to an embodiment of the present invention; Fig. 8 is a flowchart illustrates a method by which the reach-able device receives payment balance information from its second connected terminal according to an embodiment of the present invention; Fig. 9A is a conceptual view illustrating a method of processing in case of failed pairing of a self-attachable device and a second terminal according to an embodiment of the present invention; Fig. 9B is a conceptual view illustrating a method of processing in case of deactivation of an NFC payment function in a wearable device according to an embodiment of the present invention; Fig. 10 is a conceptual view illustrating a payment processing procedure using information received from a second terminal connected by a wearable device according to an embodiment of the present invention; Fig. 11 is a conceptual view illustrating a method of displaying an NFC payment processing result in a self-attachable device according to an embodiment of the present invention; Figures 12 and 13 illustrate a method of loading silver into a second terminal connected to a self-attachable device according to an embodiment of the present invention; Fig. 14 is a conceptual view illustrating a method of displaying an NFC payment processing result when the carry-on device is out of battery according to an embodiment of the present invention; FIG. 15 is a view illustrating an example in which a device that can be worn on one provided with a first electronic wallet is connected to a second terminal provided with a second electronic wallet according to an embodiment of the present invention. invention; Fig. 16 is an exemplary flowchart illustrating a method of operating a self-carrying device provided with an electronic purse according to an embodiment of the present invention; Figs. 17A, 17B and 17C are conceptual views illustrating a method of sharing charged money amounts between a second connected terminal and a self-attachable device according to an embodiment of the present invention; Figs. 18A and 18B are conceptual views illustrating a method of displaying an NFC payment processing result in a wearable device according to an embodiment of the present invention; Figs. 19 and 20 are conceptual views illustrating a method of transferring an amount of charged silver onto different communication networks between a second connected terminal and a self-attachable device according to an embodiment of the present invention; and Fig. 21 is a view illustrating other exemplary exemplary wearing devices capable of performing an NFC payment function according to an embodiment of the present invention. The embodiments disclosed herein will be described in detail below with reference to the accompanying drawings. For the sake of brevity of the description with reference to the accompanying drawings, the same or equivalent components may have the same or similar reference numerals and their description is not repeated. In general, a suffix such as "module" or "unit" can be used to refer to elements or components. The use of such a suffix herein is simply to facilitate the description of the memoir, and the suffix itself is not intended to provide a special meaning or function. [0010] The accompanying drawings are used to facilitate understanding of various technical features. It should be appreciated that the embodiments described herein are not limited by the accompanying drawings. As such, the present invention should be understood to encompass all alterations, equivalencies, and substitutions in addition to those particularly exemplified in the accompanying drawings. A terminal in the present description may include a mobile terminal such as a mobile phone, a smartphone, a notebook, a digital broadcast terminal, a personal digital assistant (PDA), a portable multimedia player (PMP), a navigation system, an PC slab, a tablet PC, an ultra book, a device that can be worn on one's body (for example, a smart watch), a terminal such as glasses (for example, smart glasses), a display mounted on the head (HMD) and similar elements. Nevertheless, the present invention may also be applicable to a fixed terminal, such as a digital television, a desktop computer and a digital panel, with the exception of specific mobility configurations. As described herein, the wearable device may be configured to exchange (or associate) data with another mobile terminal. For example, the mobile terminal can detect (or recognize) an adjacent self-carrying device that can communicate with the mobile terminal. In addition, when the detected on-reach device is an authenticated device for communicating with the mobile terminal, at least a portion of the processed data in the mobile terminal can be transmitted to the wearable device. Therefore, the user can use the processed data in the mobile terminal by using the self-wearing device. For example, when a call is received by the mobile terminal, the user can make the call via the wearable device, or when a message is received by the mobile terminal, the user can consult the message received via the device that can be worn on one's body. Fig. 1A is a block diagram illustrating the configuration of a mobile terminal 100 associated with a self-attachable device according to an embodiment of the present invention. The mobile terminal 100 shown comprises components such as a wireless communication unit 110, an input unit 120, a detection unit 140, an output unit 150, an interface unit 160, a memory 170, a controller 180 , and a power supply unit 190. The implementation of all the components illustrated in FIG. It is not a requirement and more or less components can be implemented alternatively. [0011] With reference to FIG. 1A, the wireless communication unit 110 generally comprises one or more modules that allow communications such as wireless communications between the mobile terminal 100 and a wireless communication system, communications between the mobile terminal 100. and another mobile terminal, or communications between the mobile terminal 100 and an external server. In addition, the wireless communication unit 110 generally comprises one or more modules that connect the mobile terminal 100 to one or more networks. To facilitate such communications, the wireless communication unit 110 comprises one or more of a broadcast receiving module 111, a mobile communication module 112, a wireless Internet module 113, a module 114, and a location information module 115. The input unit 120 includes a camera 121 for obtaining images or a video, a microphone 122, which is a type of device. audio input to input an audio signal, and a user input unit 123 (for example, a touch key, a push key, a mechanical key, a function key, and the like) to allow a user to enter information. Data (eg, audio, video, image and the like) is obtained by the input unit 120 and can be analyzed and processed by the controller 180 according to device parameters, user controls, and combinations. of these. The detection unit 140 is generally implemented using one or more sensors configured to detect internal information of the mobile terminal, the mobile terminal environment, user information and the like. For example, in FIG. 1A, it is shown that the detection unit 140 comprises a proximity sensor 141 and a lighting sensor 142. If this is desired, the detection unit 140 may alternatively or in addition , include other types of sensors or devices, such as a touch sensor, an acceleration sensor, a magnetic sensor, a gravity sensor, a gyroscope sensor, a motion sensor, an RGB sensor, an infrared sensor ( IR), a fingerprint sensor, an ultrasound sensor, an optical sensor (e.g., a camera 121), a microphone 122, a battery meter, an environmental sensor (for example, a barometer, a hygrometer, a thermometer, a radiation detection sensor, a thermal sensor and a gas sensor, among others), and a chemical sensor (e.g., an electronic nose, a health sensor, a biometric sensor, and the like) ), to name a few ns. The mobile terminal 100 may be configured to use information obtained from the detection unit 140, and in particular, information obtained from one or more sensors of the detection unit 140, and combinations of those -this. The output unit 150 is generally configured to output various types of information, such as audio, video, and touch outputs and the like. It is shown that the output unit 150 comprises a display unit 151, an audio output module 152, a haptic module 153, and an optical output module 154. The display unit 151 may comprise a laminated structure or an integrated structure with a touch sensor to facilitate a touch screen. The touch screen can provide an output interface between the mobile terminal 100 and a user, and it can also function as a user input unit 123 which provides an input interface between the mobile terminal 100 and the user. 'user. The interface unit 160 serves as an interface with various types of external devices that can be coupled to the mobile terminal 100. The interface unit 160 may for example comprise wired or wireless ports, power supply ports. external, wired or wireless data ports, memory card ports, ports for connecting a device with an identification module, input / output (I / O) ports, video I / O ports , earphone ports and similar items. In some cases, the mobile terminal 100 may perform matching control functions associated with an attached external device, in response to the link between the external device and the interface unit 160. The memory 170 is generally implemented to memorize data to support various functions or features of the mobile terminal 100. For example, the memory 170 may be configured to store application programs executed in the mobile terminal 100, data or instructions for operations of the mobile terminal 100 , and similar elements. Some of these application programs can be downloaded from an external server via wireless communication. Other application programs may be installed in the mobile terminal 100 at the time of manufacture or shipment, which is generally the case for basic functions of the mobile terminal 100 (for example, receiving a call, passing a call, receive a message, send a message, and similar items). It is common for the application programs to be stored in the memory 170, installed in the mobile terminal 100, and executed by the controller 180 to perform an operation (or function) for the mobile terminal 100. The controller 180 generally operates to controlling the overall operation of the mobile terminal 100, in addition to the operations associated with the application programs. The controller 180 may provide or process information or functions appropriate for a user by processing signals, data, information and the like that are input or output from the various components shown in Figure 1A, or by activating Application programs stored in the memory 170. In one example, the controller 180 controls some or all of the components illustrated in FIGS. 1A to 1C depending on the execution of an application program that has been stored in the memory 170. The power supply unit 190 may be configured to receive external energy or provide internal power to supply the appropriate power necessary for the operation of the elements and components included in the mobile terminal 100. power supply 190 may include a battery, and the battery may be configured to be integrated with the terminal body, where u configured to be detachable from the terminal body. With reference to FIG. 1A, various components shown in this figure will be described in detail below. With respect to the wireless communication unit 110, the broadcast receiving module 111 is generally configured to receive a broadcast signal and / or information associated with a broadcast from an external broadcast management entity. via a broadcast channel. The broadcast channel may include a satellite channel, a terrestrial channel, or both. In some embodiments, two or more broadcast receiving modules 111 may be used to facilitate the simultaneous reception of two or more broadcast channels, or to support switching between broadcast channels. The mobile communication module 112 may transmit and / or receive wireless signals to and / or from one or more network entities. Typical examples of a network entity are a base station, an external mobile terminal, a server, and the like. Such network entities are part of a mobile communication network that is built according to technical standards or communication methods for mobile communications (eg, global mobile communication system (GSM), code division multiple access ( CDMA), Broadband CDMA (WCDMA), High Speed Downlink Packet Access (HSDPA), Long Term Evolution (LTE), and similar elements). Examples of wireless signals transmitted and / or received via the mobile communication module 112 include audio calling signals, video calling (telephony) signals, or various data formats for supporting communications. texts and multimedia messages. [0012] The wireless Internet module 113 is configured to facilitate access to the wireless Internet. This module can be coupled, internally or externally, to the mobile terminal 100. The wireless Internet module 113 can transmit and / or receive wireless signals via communication networks according to wireless Internet technologies. Examples of such wireless Internet access are in particular wireless local area network (WLAN), wireless fidelity (Wi-Fi), Wi-Fi Direct, digital living network alliance (DLNA), wireless broadband (WiBro), global interoperability for microwave access (WiMAX), high speed downlink packet access (HSDPA), high speed uplink packet access (HSUPA), long term evolution (LTE) , advanced long-term evolution (LTE-A) and similar elements. The wireless Internet module 113 may transmit / receive data based on one or more of these wireless Internet technologies as well as other Internet technologies. In some embodiments, when wireless Internet access is implemented based on, for example, WiBro, HSDPA, GSM, CDMA, WCDMA, LTE and the like, as part of a mobile communication network. , the wireless Internet module 113 performs such wireless Internet access. As such, the Internet module 113 can cooperate with or operate as the mobile communication module 112. [0013] The short-range communication module 114 is configured to facilitate short-range communications. Suitable technologies for implementing such short-range communications are in particular BLUETOOTHTM, radio frequency identification (RFID), infrared data association (IrDA), ultra-wideband (UWB), ZigBee, near-field communication (NFC), fidelity Wireless (Wi-Fi), Wi-Fi Direct, Universal Wireless Serial Bus (USB Wireless), and similar items. In general, the short-range communication module 114 supports wireless communications between the mobile terminal 100 and a wireless communication system, communications between the mobile terminal 100 and another mobile terminal 100, or communications between the mobile terminal 100 and a mobile terminal 100, or communications between the mobile terminal 100 and another mobile terminal 100, or communications between the mobile terminal 100. mobile terminal and a network in which there is another mobile terminal 100 (or an external server), via wireless networks. An example of a wireless network is a wireless personal network. [0014] In some embodiments, another mobile terminal (which may be configured similarly to the mobile terminal 100) may be a wearable device, such as a smart watch, smart glasses, or a head-mounted display (HMD). which is able to exchange data with the mobile terminal 100 (or otherwise cooperate with the mobile terminal 100). The short-range communication module 114 can detect or recognize the wearable device, and allow communication between the wearable device and the mobile terminal 100. In addition, when the detected wearable device is detected is a device that is authenticated to communicate with the mobile terminal 100, the controller 180, for example, can cause processed data to be transmitted in the mobile terminal 100 to the wearable device via the communication module of the device. 114. A user of the wearable device can then use the processed data in the mobile terminal 100 on the wearable device. For example, when a call is received in the mobile terminal 100, the user can answer the call using the device that can be worn on the person. Similarly, when a message is received in the mobile terminal 100, the user can view the received message using the device that can be worn on oneself. The location information module 115 is generally configured to detect, calculate, derive or otherwise identify a position of the mobile terminal. In one example, the location information module 115 includes a global positioning system (GPS) module, a Wi-Fi module, or both. If desired, the location information module 115 may alternatively or additionally operate with one or more other modules of the wireless communication unit 110 to obtain data relating to the position of the mobile terminal. . In one example, when the mobile terminal uses a GPS module, a position of the mobile terminal can be acquired using a signal sent from a GPS satellite. In another example, when the mobile terminal uses the Wi-Fi module, a position of the mobile terminal can be acquired based on information relating to a wireless access point (AP) which transmits or receives a signal without wire to or from the Wi-Fi module. [0015] The input unit 120 may be configured to allow various types of input to the mobile terminal 120. Examples of such an input include audio input, image input, video input, data input and a user input. An image input and a video input are often obtained using one or more cameras 121. Such cameras 121 can process frames of photos or video images obtained by image sensors in an image acquisition mode. video or picture. The processed image frames may be displayed on the display unit 151 or stored in the memory 170. In some cases, the cameras 121 may be arranged in a matrix configuration to allow a plurality of images having various angles or various focal points to be input to the mobile terminal 100. In another example, the cameras 121 may be located in a stereoscopic arrangement for acquiring left and right images to implement a stereoscopic image. The microphone 122 is generally implemented to allow audio input into the mobile terminal 100. The audio input may be processed in a variety of ways according to a function performed in the mobile terminal 100. If desired, the microphone 122 may include matching noise suppression algorithms to suppress unwanted noise generated during the reception of external audio. [0016] The user input unit 123 is a component that allows a user to make an entry. Such user input may allow the controller 180 to control the operation of the mobile terminal 100. The user input unit 123 may include one or more of a mechanical input element (e.g., a touch , a button located on a front surface and / or a rear surface or a side surface of the mobile terminal 100, a dome-shaped switch, a scroll wheel, a wheel and the like), or a touch input, among others . In one example, the touch input can be a virtual key or a function key, which is displayed on a touch screen via software processing, or a touch key that is located on the mobile terminal at a location other than the touch screen. Furthermore, the virtual key or the visual key can be displayed on the touch screen in various forms, for example graphic, text, icon, video or a combination thereof. [0017] The detection unit 140 is generally configured to detect one or more internal information of the mobile terminal, mobile terminal environment information, user information or similar information. The controller 180 generally cooperates with the sending unit 140 to control the operation of the mobile terminal 100 or execute a data processing, function, or operation associated with an application program installed in the mobile terminal on the basis of the detection provided by the detection unit 140. The detection unit 140 may be implemented using any of a variety of sensors, some of which will be described in detail hereinafter. The proximity sensor 141 may comprise a sensor for detecting the presence or absence of an object approaching a surface, or an object located near a surface, using a magnetic field, infrared rays or similar elements without mechanical contact. The proximity sensor 141 may be arranged at an inner region of the mobile terminal covered by the touch screen, or near the touch screen. The proximity sensor 141 may for example comprise any one of a transmissive type photoelectric sensor, a direct reflection type photoelectric sensor, a mirror reflection type of photoelectric sensor, an oscillation proximity sensor. high frequency, a capacitance type proximity sensor, a magnetic type proximity sensor, an infrared proximity sensor and the like. When the touch screen is implemented as a capacitance type, the proximity sensor 141 can detect the proximity of a pointer to the touch screen by changes in an electromagnetic field in response to an approach. of an object with a conductivity. In this case, the touch screen (touch sensor) can also be categorized as a proximity sensor. As used herein, the term "proximity touch" is often referred to to indicate a scenario in which a pointer is positioned to be near the touch screen without touching it. In the present, reference is often made to the term "contact touch" to indicate a scenario in which a pointer is in physical contact with the touch screen. For the position corresponding to the proximity touch of the pointer relative to the touch screen, such a position corresponds to a position at which the pointer is perpendicular to the touch screen. Proximity sensor 141 can detect a proximity touch, and proximity touch patterns (e.g., distance, direction, speed, time, position, travel status, and the like). [0018] In general, controller 180 processes data corresponding to proximity touches and proximity touch patterns detected by proximity sensor 141, and causes visual information to be output to the touch screen. In addition, the controller 180 can control the mobile terminal 100 to perform different operations or to process different data depending on whether a touch at a point on the touch screen is a proximity touch or a touch. A touch sensor can detect a touch applied to the touch screen, such as a display unit 151, using any of a variety of touch methods. Examples of such tactile methods are a resistive type, a capacitive type, an infrared type and a magnetic field type, among others. In one example, the touch sensor can be configured to convert pressure changes applied to a specific portion of the display unit 151, or to convert a capacitance occurring at a specific portion of the display unit 151, to signals electrical input. The touch sensor can also be configured to detect not only an affected position and an affected area, but also touch pressure and / or touch ability. A touch object is generally used to apply a touch input to the touch sensor. Examples of typical touch objects are a finger, a touch pen, a stylus, a pointer, or the like. When a touch input is detected by a touch sensor, corresponding signals can be transmitted to a touch controller. The touch controller can process the received signals and then transmit corresponding data to the controller 180. The controller 180 can therefore detect the region of the display unit 151 that has been touched. Here, the touch controller may be a separate component of the controller 180, the controller 180 and combinations thereof. [0019] In some embodiments, the controller 180 may execute the same or different commands depending on a type of touch object that touches the touch screen or a touch key provided in addition to the touch screen. It can be decided whether to execute the same command or a different command depending on the object that provides a touch input, based for example on a current state of operation of the mobile terminal 100 or a program of operation. application running. The touch sensor and the proximity sensor can be used individually or in combination to detect various types of touch. Such touches include a short touch (or a tap), a long touch, a multiple touch, a sliding feel, a moving feel, a nip pinch feel, a widening nip, a swipe feel , a touch of passage and similar elements. [0020] If desired, an ultrasound sensor may be implemented to recognize positional information relating to a touch object using ultrasonic waves. The controller 180 may for example calculate a position of a wave generation source based on information detected by an illumination sensor and a plurality of ultrasonic sensors. Since light is much faster than ultrasonic waves, the time it takes for the light to reach the optical sensor is much shorter than the time it takes the ultrasonic waves to reach the ultrasonic sensor. The position of the wave generation source can be calculated using this fact. For example, the position of the wave generation source can be calculated using the time difference from the time it takes the ultrasonic wave to reach the sensor on the basis of the light as a signal of reference. The camera 121 generally comprises at least one camera sensor (CCD, CMOS, etc.), a photosensor (or image sensors) and a laser sensor. The implementation of the camera 121 with a laser sensor may allow the detection of a touch of a physical object with respect to a 3D stereoscopic image. The photosensor may be laminated or superimposed on the mobile terminal. The photosensor can be configured to scan the movement of the physical object near the touch screen. In detail, the photosensor may include photodiodes and transistors in rows and columns to scan the content received at the photosensor using an electrical signal that changes depending on the amount of light applied. The photosensor can calculate the coordinates of the physical object according to the variation of the light to obtain position information of the physical object. [0021] The display unit 151 is generally configured to output processed information in the mobile terminal 100. For example, the display unit 151 may display run screen information of an application program. executing at the mobile terminal 100 or the user interface (UI) and graphical user interface (GUI) information in response to the execution screen information. In some embodiments, the display unit 151 may be implemented as a stereoscopic display unit for displaying stereoscopic images. A typical stereoscopic display unit may employ a stereoscopic display scheme such as a stereoscopic schema (eyeglass scheme), an autostereoscopic schema (eyeglass-free schema), a projection scheme (holographic scheme), or a similar scheme. The audio output module 152 is generally configured to output audio data. Such audio data can be obtained from any one of a number of different sources, so that the audio data can be received from the wireless communication unit 110 or can be stored in the memory 170. The audio data may be delivered in modes such as a signal receiving mode, a calling mode, a recording mode, a voice recognition mode, a broadcast receiving mode or a similar mode. The audio output module 152 may provide an audible output relating to a particular function (eg, a call signal receiving sound, a message receiving sound, etc.) performed by the mobile terminal 100. audio output 152 may also be implemented in the form of a receiver, a speaker, a buzzer or the like. [0022] A haptic module 153 may be configured to generate various tactile effects that a user feels, perceives or otherwise receives. A typical example of a tactile effect generated by the haptic module 153 is a vibration. The force, pattern, and other similar characteristics of the vibration generated by the haptic module 153 may be controlled by a user selection or may be adjusted by the controller. For example, the haptic module 153 can deliver different vibrations in a combined manner or in a sequential manner. In addition to vibrations, the haptic module 153 may generate various other tactile effects, including a pacing effect such as a vertically moving pin arrangement for contacting the skin, a spraying force, or a suction force. air through a jet orifice or a suction opening, a touch of the skin, an electrode contact, an electrostatic force, an effect by reproducing the sense of cold and heat by using an element that can absorb or generate heat, and similar elements. The haptic module 153 can also be implemented to allow the user to feel a tactile effect through a muscular sensation, such as the fingers or the arm of the user, and transferring the tactile effect by direct contact. Two or more haptic modules 153 may be provided according to the particular configuration of the mobile terminal 100. An optical output module 154 may output a signal to indicate event generation using light from a light source. Examples of events generated in the mobile terminal 100 may include message reception, call waiting reception, missed call, alarm, scheduling notification, e-mail reception, reception of information via an application, and similar items. A signal delivered by the optical output module 154 may be implemented such that the mobile terminal transmits monochromatic light or light with a plurality of colors. The signal output may be terminated when the mobile terminal detects that a user has viewed the generated event, for example. The interface unit 160 serves as an interface for external devices to be connected to the mobile terminal 100. For example, the interface unit 160 can receive data transmitted from an external device, receive an energy to be transmitted to elements and components within the mobile terminal 100, or transmit internal data from the mobile terminal 100 to such an external device. The interface unit 160 may include wired or wireless headphone ports, external power supply ports, wired or wireless data ports, memory card ports, ports for connecting a device having a identification module, audio input / output (I / O) ports, video I / O ports, headphone ports, or the like. The identification module may be a chip that stores various information to authenticate the authority to use the mobile terminal 100 and may include a user identity module (UIM), a subscriber identity module (SIM) ), a Universal Subscriber Identity Module (USIM) and similar elements. In addition, the device comprising the identification module (which is referred to hereinafter as "identification device") may take the form of a smart card. Therefore, the identification device can be connected to the terminal 100 via the interface unit 160. When the mobile terminal 100 is connected to an external docking station, the interface unit 160 can serve as a passageway for providing the power supply from the docking station to the mobile terminal 100 or it can be used as a gateway to allow the transfer of various control signals entered by the user to the mobile terminal. Various control signals or the power supply of the docking station may function as signals to recognize that the mobile terminal is properly mounted on the docking station. The memory 170 can store programs to support operations of the controller 180 and store input / output data (eg a directory, messages, photos, videos, etc.). The memory 170 can store data relating to various vibration and audio patterns that are delivered in response to touch inputs on the touch screen. The memory 170 may comprise one or more types of storage media, including a flash memory, a hard disk, a solid state disk, a semiconductor disk, a multimedia microcard, a card memory (for example, SD or DX memory, etc.), random access memory (RAM), static random access memory (SRAM), read only memory (ROM), electrically erasable programmable read only memory (EEPROM), programmable read only memory (PROM), magnetic memory, a magnetic disk, an optical disk and the like. The mobile terminal 100 may also operate in connection with a network storage device that performs the function of storing memory 170 on a network, such as the Internet. The controller 180 can generally control the general operations of the mobile terminal 100. For example, the controller 180 can enable or disable a lockout state to prohibit a user from entering a control command with respect to applications when a status mobile terminal meets a preset condition. The controller 180 may also perform control and processing associated with voice calls, data communications, video calls, and the like, or perform pattern recognition processing to recognize a handwritten input or drawing input made to the touch screen respectively in the form of characters or images. In addition, the controller 180 may control a component or combination of these components to implement various exemplary embodiments disclosed herein. The power supply unit 190 receives external energy or provides internal energy and supplies the appropriate energy necessary for the operation of respective elements and components included in the mobile terminal 100. The power supply unit 190 may comprise a battery, which is generally rechargeable or releasably coupled to the terminal body for charging. The power supply unit 190 may include a link port. The link port may be configured as an example of the interface unit 160 to which an external charger is electrically connected to provide the energy required to recharge the battery. In another example, the power supply unit 190 may be configured to recharge the battery in a wireless manner without using the link port. In this example, the power supply unit 190 can receive energy transferred by an external wireless energy transmitter, using at least one of an inductive coupling method which is based on induction magnetic or a magnetic resonance coupling method that is based on magnetic resonance. Various embodiments described herein may be implemented in a computer readable medium, a machine readable medium or a similar medium using for example software, hardware or a combination thereof. Another mobile terminal (which can be configured similarly to the mobile terminal) can be a device that can be carried on oneself, for example a smart watch, smart glasses or a head-mounted display (HMD), which can exchange data with the mobile terminal 100 (or otherwise cooperate with another mobile terminal). FIG. 1A also illustrates a predetermined compartment unit 175 for equipping an electronic purse (SE), as will be described in detail hereinafter with reference to FIG. [0023] Fig. 1B is a perspective view illustrating an example of a watch type mobile terminal 200 according to another embodiment. As illustrated in FIG. 1B, the watch-type mobile terminal 200 comprises a main body 201 with a display unit 251 and a bracelet 202 connected to the main body 201 to be worn on the wrist. In general, the mobile terminal 200 may be configured to include features identical or similar to those of the mobile terminal 100 of FIG. 1A. The main body 201 may comprise a housing having a certain appearance. As illustrated, the housing may include a first housing 201a and a second housing 201b cooperatively defining an interior space for accommodating various electronic components. Other configurations are possible. For example, a single box can be implemented alternatively, being configured to define the interior space, thereby implementing a mobile terminal 200 with a single body. [0024] The watch type mobile terminal 200 can perform wireless communication, and an antenna for wireless communication can be installed in the main body 201. The antenna can extend its function using the housing. For example, a housing comprising a conductive material may be electrically connected to the antenna to extend a ground area or a radiation area. [0025] The display unit 251 shown is located on the front side of the main body 201 so that the displayed information is visible to a user. In some embodiments, the display unit 251 includes a touch sensor so that the display unit can function as a touch screen. As illustrated, the window 251a is positioned on the first housing 201a to form a front surface of the terminal body with the first housing 201a. The illustrated embodiment comprises an audio output module 252, a camera 221, a microphone 222, and a user input unit 223 positioned on the main body 201. When the display unit 251 is implemented as a touch screen, additional function keys can be minimized or eliminated. For example, when the touch screen is implemented, the user input unit 223 may be omitted. In addition, the main body 201 or the bracelet 202 may have, in a region, one or more of a motion sensor, a gyroscope sensor, a gravity sensor, a magnetic sensor and a sensor. an acceleration sensor for detecting the gesture of the user carrying the main body, and the user's gesture can be detected from a combination of information detected through at least one or more of the sensors. [0026] The bracelet 202 is commonly worn on the wrist of the user and may be made of a flexible material to facilitate the wearing of the device. In one example, the bracelet 202 may be made of fur, rubber, silicon, synthetic resin, etc. The bracelet 202 may also be configured to be detachable from the main body 301. The bracelet 202 may be replaceable by various types of bracelets according to the preferences of a user. In one configuration, the bracelet 202 may be used to extend the performance of the antenna. For example, the bracelet may comprise inside thereof a mass extension portion electrically connected to the antenna for extending a mass zone. The bracelet 202 may comprise a fastener 202a. The attachment 202a can be implemented in the form of a loop, a hook, a Velcro® fastener, etc. and it comprises a part or a flexible material. The drawing illustrates an example in which the attachment 202a is implemented in the form of a loop. Fig. 2 is a view illustrating a wireless communication system in which a wearable device can operate according to an embodiment of the present invention. A communication system usable with the various mobile terminals described will be described in detail below. Such a communication system can be configured to use different air interfaces and / or different physical layers. Examples of such air interfaces used by the communication system include frequency division multiple access (FDMA), time division multiple access (TDMA), code division multiple access (CDMA), the Universal Mobile Telecommunications System (UMTS) (including long-term evolution (LTE), advanced long-term evolution (LTE-A)), the global mobile communications system (GSM) and similar interfaces. In a non-limiting example, a CDMA communication system will be described below. The teachings of this disclosure also apply to other types of systems, including a CDMA wireless communication system and an OFDM (Orthogonal Frequency Division Multiplexing) wireless communication system. A CDMA wireless communication system generally comprises one or more mobile terminals (MT or user equipment, UE) 100, one or more base stations (BS, node B or evolved node B), one or more station control devices. base (BSC), and a mobile switching center (MSC). The MSC is configured to interface with a public switched telephone network (PSTN) and the BSCs. BSCs are coupled to base stations via landlines. The land lines can be configured according to various known interfaces including El / T1, ATM, IP, PPP, Frame Relay, HDSL, ADSL or xDSL. The plurality of BSCs can therefore be included in the CDMA wireless communication system. Each base station may comprise one or more sectors, each sector comprising an omnidirectional antenna or an antenna pointed in a particular direction radially away from the base station. Alternatively, each sector may comprise two or more different antennas. Each base station may be configured to support a plurality of frequency assignments, each frequency assignment having a particular spectrum (e.g., 1.25 MHz, 5 MHz, etc.). [0027] The intersection between sector allocation and frequency allocation as a CDMA channel can be referred to. Base stations can also be referred to as base station transceiver subsystems (BTS). In some cases, the term "base station" may be used to refer collectively to a BSC, and to one or more base stations. Base stations can be called "cell sites". Alternatively, individual sectors of a given base station may be called cell sites. A broadcast transmitter (BT) transmits a broadcast signal to the mobile terminals 100 operating in the system. The broadcast receiving module 111 of FIG. 1A is generally configured within the self-carrying device 200 to receive broadcast signals from the BT. Global Positioning System (GPS) satellites, for example, for locating the position of the reach-able device 200 may cooperate with the CDMA wireless communication system. Useful position information can be obtained with more or less than two satellites. It is important to realize that other types of position sensing technology (ie locating technology that can be used in addition to or in place of GPS tracking technology) can be implemented. alternatively. [0028] If desired, at least one of the GPS satellites may be configured alternatively or in addition to provide satellite DMB transmissions. As previously described with reference to FIG. 1A, the mobile terminal can be configured to include short-range communication techniques such as BluetoothTM, radio frequency identification (RFID), infrared data association (IrDA), ultra-wide band (UWB). ), ZigBee, Near Field Communication (NFC), Universal Wireless Serial Bus (USB Wireless), and similar items. A typical NFC module provided to the mobile terminal supports short-range wireless communication, which is a type of contactless communication between mobile terminals, and which typically occurs within about 10 cm. The NFC module can operate in one of a card mode, a drive mode or a P2P mode. The mobile terminal 100 may further include a security module for storing card information to operate the NFC module in a card mode. The security module may be a physical medium such as a universal integrated circuit board (UICC) (eg a subscriber identification module (SIM) or a universal SIM (USIM)), a secure micro-SD and a key secure, or a logical support (for example an integrated secure element (SE)) integrated in the mobile terminal. Data exchange based on a single wire protocol (SWP) can be performed between the NFC module and the security module. When the NFC module is operating in a card mode, the mobile terminal can transmit card information to a general IC card outside. More specifically, if a mobile terminal with card information on a payment card (for example a credit card or a bus card) approaches a card reader, a short-range mobile payment can be executed. In another example, if a mobile terminal that stores card information on an input card approaches an input card reader, an entry approval procedure can begin. A card such as a credit card, a circulation card or an input card can be included in the security module in the form of an applet, and the security module can store card information on the card mounted to inside of it. Card information for a payment card may include any one of a card number, a remaining amount, a usage history and similar items. Card information of an entry card may include any one of a user name, a user number (eg student number or employee number), a history of entrance and similar elements. [0029] When the NFC module is operating in a reader mode, the mobile terminal can read data from an external tag. The data received from the external tag by the mobile terminal may be encoded by the NFC data exchange format defined by the NFC Forum. The NFC Forum generally defines four types of recordings. Specifically, the NFC Forum establishes four Record Type Definitions (RTDs): Smart Poster, Text, Uniform Resource Identifier (URI), and General Command. If the data received from the external tag is a type of smart poster, the controller can run a browser (for example an Internet browser). If the data received from the external label is a text type, the controller can execute a text viewer. If the data received from the external tag is a URI type, the controller can run a browser or make a call. If the data received from the external tag is a general type of command, the controller may perform an appropriate operation based on command content. When the NFC module operates in P2P (peer-to-peer) mode, the mobile terminal can perform P2P communication with another mobile terminal. In this case, the logical link control protocol (LLCP) can be applied to the P2P communication. For P2P communication, a link can be established between the mobile terminal and another mobile terminal. This link can be categorized as a non-link mode that terminates after switching a packet or link-oriented mode in which packets are switched consecutively. For typical P2P communication, data such as an electronic name card, address information, a digital photo and URL, a configuration setting for a Bluetooth connection, a Wi-Fi connection, etc. can be switched. P2P mode can be used effectively in data switching of a small capacity, because a distance available for NFC communication is relatively short. The self-wearing device 200 which may comprise at least one or more of the configurations described above, when detecting a preset gesture of the user, may receive information associated with the account corresponding to a wallet electronic (SE: secure element) equipped in a second terminal from the second terminal via the wireless communication unit 110 (see FIG 1A) and can display the received information. Here, the second terminal means a device associated with the self-carrying device 200, which has previously been registered with the second terminal or the self-carrying device 200. Then, the self-carrying device 200 can perform a NFC payment using the information displayed on the screen, in particular the balance charged to the account of the electronic purse (SE: secure element). In this case, even when there is no payment method information in the self-carrying device 200, the payment function NFC can be performed using a sum of money loaded in the second terminal. Here, the self-carrying device and the second device are "connected" to each other beforehand or when a predetermined gesture is detected. Specifically, the self-carrying device and the second device connected to each other constitute a connected state in which the self-carrying device 200 and the second terminal are connected to each other so that the device that can be worn on the body 200 can access the account of the electronic purse (SE: secure element) equipped in the second terminal. Such a connected state is referred to as a "link" between the reach-able device and the second device to distinguish it from a typical connection between devices for communicating data to each other. In other words, the connection for typical data communication between the reach-able device and the second terminal is called "pairing" and such pairing can be distinguished from the "link" described above. For example, even when the reach-on device is already paired with the second terminal, when the preset user gesture described above is detected, reference may be made to a "link" between the device being able to be ported to 200 and the second terminal and, in this case, the electronic wallet (SE: secure element) equipped in the second terminal is accessible. In order for the user to know if the connection between the reach-able device and the second terminal is a match for a typical data communication or a link to access the electronic wallet (SE: secure element), different feedbacks corresponding respectively to the pairing and the link can be issued. In addition, different gestures (movements) of user can be preset or set by the user. Nevertheless, the present invention is not limited to that, in another embodiment the user gesture may be implemented in the form of any one of a pre-set touch input and a pre-set voice command. In addition, the preset user gesture may be an intuitive user gesture for receiving information about the electronic purse account (SE: secure element) from the second terminal and may be determined by default when the product is launched or through the user configuration. Likewise, the electronic wallet (SE: secure element) equipped in the second terminal can mean a payment method (for example, an integrated circuit card or USIM) which can perform a payment function via a communication with an external server. The Secure Element (OS) indicates a kind of security region that can hold critical data securely, such as financial information, authentication information, or service applications. A universal subscriber identity (USIM) module, a micro-SD, a key or an embedded SE is frequently used as an SE. In such a case, the user can perform a function that can be carried out in cash, with a credit card, with a dotted card or with a transport card, via the second terminal without wearing separately the card. cash, a credit card, a point card or a transport card. Such a function may for example be a financial function, and the financial function may be a mobile banking function comprising a bank transaction or a credit card transaction, a transport card function ("K-mercTM"), and a function of accumulation or use of points. In addition, the financial function may mean a payment function performed via near-field wireless communication with a card terminal through the wireless communication unit of the second terminal. In addition, the electronic wallet account SE can be prerecorded and mapped to at least one of a virtual account, a real account, a prepaid card, a deferred payment card and a mobile phone payment card. The electronic purse account information SE is the concept encompassing all the user information, the loaded balance and the transaction history of the registered account. [0030] The NFC payment consists of a near-field wireless contactless payment using a 13.56 MHz frequency band. It refers for example to a payment scheme adopting the technique according to which a data transmission is performed between terminals equipped with a NFC chip separated by a short distance of about 10 cm. NFC has good accessibility, bidirectionality and security features compared to other techniques and provides fast recognition (one-tenth of a second or less) without the need for a complicated matching process. That is why NFC is currently widely used for example for card payment, for transport cards, for the transmission of travel information and for the locking of traffic control and access control. The various aforementioned NFC functions are generally performed while the mobile terminal remains powered. Fig. 3 is a view illustrating a payment system using a self-attachable device according to an embodiment of the present invention. As shown in FIG. 3, the payment system may include a self-carrying device 200, a second terminal 100A, an NFC reader 400, and a payment server 500. The self-carrying device 200 performs the following functions: operation of an NFC payment according to an embodiment of the present invention, when the self-carrying device 200 comes into close contact with the NFC reader 400 being connected to the second terminal 100A. In this case, the payment amount corresponding to the NFC payment is in fact deducted from the account of the electronic purse equipped in the second terminal 100A connected to the device that can be worn on itself 200. The payment server 500 is connected to the second terminal 100A and it controls the balance and the account of the electronic purse equipped in the second terminal 100A and deducts the amount of payment. At this stage, the payment amount to be deducted is provided in such a way that the self-carrying device 200 delivers the information read from the NFC reader 400 to the second terminal 100A. In addition, the payment server 500 performs a payment process by adjusting the amount of payment deducted with the balance of a franchise account. [0031] The NFC reader 400 comes into close contact with the self-carrying device 200 to communicate data with the self-carrying device 200. For example, if the self-carrying device 200 approaches a few centimeters ( cm) or a few tens of centimeters (cm) from the fixed NFC reader 400, the NFC reader 400 delivers franchise information and payment information to the self-carrying device 200, and the self-carrying device 200 provides payment information. For example, the self-carrying device 200 reads the tag attached or issued to the NFC reader 400 to obtain the franchise information. Here, the tag may be an electronic tag such as an RFID tag or an NFC tag, or an N-dimensional code such as a QR code or a barcode. Further, the tag may be attached to a particular position, for example an entry or a position adjacent to the self-attachable device 200, and such tag information may be output through output means. connected to the self-carrying device 200. [0032] As described with reference to FIG. 3, the obtaining of the franchise information and the labeling of the NFC payment is carried out via the self-carrying device 200 in the payment system according to one embodiment. of the present invention and the actual deduction of the payment amount is carried out through the second terminal 100A connected to the device can be worn on itself 200. The user can therefore easily use the electronic wallet equipped in the second terminal 100A via the self-attachable device 200 connected to the second terminal 100A even without a separate registration process. [0033] FIG. 4 is a view illustrating an example in which a device that can be worn on one is connected to a second terminal equipped with an electronic purse according to one embodiment of the present invention. As shown in FIG. 4, the electronic wallet SE is equipped only in the second terminal 100A and is not equipped in the self-carrying device 200. As shown in FIG. self-wearing device 200 may comprise a connection module (connection manager) 21, a security module (security agent) 22, a payment application module (payment application) 23, and an NFC module 24 The connection module 21 is a component for establishing a link with a second prerecorded terminal 100A. Such a "link" is distinguished from an access for communicating data to the second terminal 100A as described above and constitutes the state in which the electronic wallet SE equipped in the second terminal 100A is accessible. In addition, the security module 22 is a component enabling secure data communication between the self-carrying device 200 and the second terminal 100A connected to each other. In particular, since security is essential for financial information, such as the amount of money charged to the SE electronic wallet or user information, the financial information may be subject to encryption and decryption by the user. intermediate of the security module. In addition, the payment application module 23 is an application that runs in the background in the main body of the self-carrying device 200 to be connected to the second terminal 100A. The payment application module 23 can be activated via a predetermined input (a user preset gesture as will be described in detail below). The NFC module 24 is a component to cause the NFC reader to make an NFC payment. The NFC module 24 receives an NFC signal (that is to say a payment request signal) for example when the device that can be worn on the body comes into close contact with the NFC reader, and, in response to the NFC signal, it sends the corresponding payment information. [0034] In addition, the second terminal 100A connected to the self-carrying device 200 comprises components similar to those described above, such as a connection module (connection manager) 31, a security module (security agent) 32, a payment application module (payment application) 33, and an NFC module 34. The second terminal 100A also comprises one or more electronic purses SE 35. The second terminal 100A remains connected to the device that can be worn on itself 200 until the end of the NFC payment. As such, the second terminal 100A receives payment information and franchise information where the labeling has been done by the self-attachable device 200 from the self-attachable device 200 while maintaining the link and it sends, to the self-carrying device 200, payment amount information corresponding thereto. In this case, instead of the amount of money loaded in the electronic purse 35, only the information relating to the account of the electronic purse SE, for example amount information, is transmitted from the second terminal 100A to the device which can be 200. In other words, a real NFC payment is made through the second terminal 100A, but not via the self-carrying device 200. [0035] Nevertheless, the user can immediately view the balance information loaded in the electronic purse 35 via the self-carrying device 200 and makes an NFC payment using the balance information accessed. Therefore, the user may have the impression that the amount of money has been transmitted from the second terminal 100A connected (without the need for a separate transmission operation), which is convenient. The user can also make an NFC payment directly via the NFC module 34 equipped in the second terminal 100A. In addition, the second terminal 100A is connected to the payment server 500, and the payment server 500 deducts the payment amount NFC, provided via the self-carrying device 200, the account of the electronic purse equipped in the second terminal 100A. The payment application module 33 in the second terminal 100A is activated, and a corresponding payment application is executed in the background to notify an amount to be deducted / a deducted amount to the payment server 500. In addition, the device can 200 is not directly connected to the payment server 500 and communicates information to the payment server 500 through the second terminal 100A. According to one embodiment of the present invention, the connection between the self-carrying device 200 and the second terminal 100A and the connection to the second terminal 100A and the payment server 500 must be performed intuitively and quickly. [0036] Fig. 5 is a flowchart illustrating an exemplary method of operating a self-wearing device according to an embodiment of the present invention and Fig. 6 is a conceptual view illustrating the flowchart shown in Fig. 5. Referring in FIG. 5, the device that can be worn on one's body, for example a watch-type terminal, detects a preset user gesture by being placed on a particular portion of the user's body (S510). The preset user gesture can be detected by a combination of one or more of an acceleration sensor, a magnetic sensor, a gravity sensor, a gyroscope sensor, and a sensor movement disposed on at least a portion of the main body 201 or bracelet 202 to detect the gesture of the user carrying the main body. For example, the preset user gesture may be a gesture whereby the touch screen provided in the wearable device is rotated to be positioned on an outer side of the body and then returned to an inner side of the body, straightening the arm carrying the device which can be worn on oneself (such movements can be divided as will be described below or they can be treated as one continuous movement). Nevertheless, the gesture is not limited to this, and the gesture can be determined or varied in the form of a particular movement desired by the user. If a preset user gesture is detected, the device that can be worn on oneself receives information relating to the account of the electronic purse (SE: secure element) from the second terminal connected to the device that can be carried on oneself and equipped with one or more electronic purses (SE: secure element). Here, the "second terminal" means an external device prerecorded in the device that can be carried on oneself or the second terminal. In addition, as described above, the self-carrying device and the second terminal are connected to each other beforehand or when a preset gesture is detected. Specifically, the "link" between the reach-able device and the second terminal constitutes a connected state in which the self-carrying device 200 and the second terminal are connected to each other so that the account electronic wallet (SE: secure element) equipped in the second terminal is accessible. In other words, the connection for typical data communication between the reach-able device and the second terminal is called "pairing" and such pairing can be distinguished from the "link" described above. For example, even when the reach-on device is already paired with the second terminal, when the preset user gesture described above is detected, reference may be made to a "link" between the device being able to be ported to 200 and the second terminal and, in this case, the electronic purse (SE: secure element) equipped in the second terminal is accessible. So that the user knows whether the connection between the device that can be worn on one's own and the second terminal is a pairing for a typical data communication or a link to access the electronic purse (SE: secure element), different corresponding feedbacks respectively to the pairing and the link can be issued. In addition, the "connection" between the self-carrying device and the second terminal can be performed when a user gesture is detected or through a previous input. If a preset user gesture is detected, the controllable device controller may send a signal to request the "link" and a signal to request a transmission of information corresponding to the electronic purse account (SE: secure element) at the second terminal. The preset user gesture is a gesture input applied to the main body while the wearable device is placed on the user's body, and the user gesture may be a predetermined user gesture, a gesture set by the user or a gesture that the user varies. In another embodiment, instead of the preset user gesture, the implementation can be performed by any one of a preset voice command and a pre-set type of touch input, instead of the gesture gesture. 'user. The controller may also recognize the detection of the preset user gesture as an input of a control command to request the "link" with the second prerecorded terminal. The reach-able device and the second prerecorded terminal may have been pre-paired or may not be connected to each other. In each case, when a response corresponding to a control command to request the "link" is received, the electronic wallet (SE: secure element) equipped in the second terminal is accessible. In addition, as used herein, the electronic wallet (SE: secure element), as described above, means a payment method (for example, an IC card, a memory module). universal subscriber identification (USIM), micro-SD, key, embedded SE, etc.) that can perform a payment function through communication with an external server. As described herein, the electronic purse account information includes all information such as the transaction history, the loaded balance, and the account user information stored in the at least one account. a virtual account, a real account, a prepaid card and a mobile payment account, as well as the points and the amount of money preloaded in the prepaid card. In other words, according to one embodiment of the present invention, the self-wearing device which does not store (or the selectively-attachable device that selectively stores) a payment method or payment can be linked to the second terminal which stores one or more payment methods. If the device that can be carried on oneself is connected to the second terminal, the device that can be worn on oneself 200 and the second terminal can be connected to one another, so that the electronic purse (SE: secure element ) equipped in the second terminal is accessible. [0037] Pairing between the reach-able device and the second terminal can be maintained through low power wireless communication (e.g., low energy Bluetooth communication (BLE)), so that the The link described above can be established more quickly. As used herein, "BLE communication" allows wireless communication using low power (for example, about 1 to 5% of the power required for Bluetooth communication standards) while maintaining stability and security. Bluetooth communication. [0038] Even when the state of communication between the reach-able device and the second terminal is switched from low-power wireless communication (low energy Bluetooth (BLE)) to Bluetooth (BT) communication or communication Wifi to allow access to the account of the electronic wallet (SE: secure element) equipped in the second terminal by detecting a preset user gesture, it is still a "connection" as has been described here -above . Furthermore, since the self-wearing device according to one embodiment of the present invention detects an application of a preset user gesture by being placed on a particular portion of the user's body, the device can be worn on itself can constantly receive the biometric information of the user (for example, pulse, etc.) when the user puts the device that can be worn on oneself. Therefore, it can be previously identified if the person wearing the device that can be worn on the user is the user itself, and the second prerecorded terminal can be identified beforehand (in other words, we can skip the broadcast for generation a list of second pre-recorded terminals). As described above, when access to the second connected terminal is made through a preset gesture input, it is preferable to employ a more intuitive gesture. In other words, the user can previously record, for any future use, his own gesture or gesture allowing the user to remember the "connection" in a more intuitive way. The preset user gesture described above may comprise two separate entries from one another: an entry for the "link" with the second terminal (what is referred to hereinafter as "first" user gesture ") and another entry to transmit and display information about the" electronic wallet (SE: secure element) "account of the second terminal (which is referred to below as" second user gesture ") which are distinguishable from each other or which can be recognized as a single continuous user gesture. For example, with reference to FIGS. 6 (a) and (b), when detected, while the watch type terminal 200 is placed on the wrist of the user, the user performs the gesture of straightening the arm with the wrist facing away from the body, the act of turning the wrist away from the body with the arm extended, or the act of turning the wrist away from the body while extending the arm (What is referred to hereinafter as "first user gesture"), the link with the second terminal 100A can be established. Then, the watch type terminal 200 goes into the state in which the watch type terminal 200 can access the electronic purse (SE) equipped in the second terminal 100A. This is similar to the user gesture to put the payment method in close contact with the NFC reader, and such an intuitive gesture allows for smooth "linking". Thus, the watch type terminal detection unit 200 can detect the movement or rotation of the user's wrist while the main body is placed on the wrist of the user. More specifically, the detection unit can detect wrist movement and the direction and degree of wrist rotation through a combination of information detected through at least one or more of a acceleration sensor, magnetic sensor, gravity sensor, gyro sensor and motion sensor. The controller may then generate a "link" request signal based on the detected wrist movement and the direction and degree of wrist rotation and send the link request signal to the second terminal. [0039] In addition, the detection unit can detect the rotation and movement of tendons passing through the wrist. In this case, the controller may perform a corresponding control operation (e.g., access to the second terminal) based on the characteristics of the detected wrist rotation and the detected motion of the tendons passing through the wrist. The controller can thus allow the execution of the control operation (for example access to the second terminal) corresponding to the movement characteristics of the tendons passing through the wrist of the user when detecting a preset start gesture. [0040] The controller may set a condition that the first user gesture applied to the main body is maintained for a preset time (e.g. one second or longer). In other words, the controller can set a predetermined time condition before the main body recognizes that the first user gesture is intended to establish the "connection" with the second terminal. The controller may also distinguish the link corresponding to the first user gesture described above (i.e., access for an NFC payment) from other types of access, e.g., a match. Specifically, if the link corresponding to the first user gesture is established, the second terminal 100A is enabled to obtain wireless access to the payment server 500, and the payment application installed in the second terminal 100A can be automatically executed. . In contrast, when access for a data or content type communication between the watch type terminal 200 and the second terminal 100A, as a pairing, is obtained, a distinguished access request signal of the Bluetooth signal corresponding to the first user gesture is transmitted to the second terminal 100A to prevent access of the second terminal 100A to the payment server 500. If the device can be worn on the user detects the first user gesture, the watch type terminal 200 can deliver different types of feedback depending on the success or failure of the "link" with the second terminal. In this case, the types of feedback according to the success or failure of the "link" can be implemented by combining at least one or more of a vibration, a sound and a screen change on the touch screen. For example, if the watch type terminal 200 is connected to the second terminal 100A, as shown in FIG. 6 (b), a feedback indicating the success or failure of the link, such as a predetermined vibration, can be issued from the main body of the watch type terminal 200. The watch type terminal 200 may have two different vibration patterns, namely a vibration pattern (for example, several times a vibration) corresponding to successful pairing and another pattern of vibration (for example, only once a vibration) corresponding to the failure of the pairing. Such feedback may also be delivered from the second terminal 100A. [0041] When the link with the second terminal 100A is successful, the second terminal 100A can go into the live state or the activated state. As described above, the payment application can be executed in the background to access the payment server 500. If a user preset gesture, that is, the second user gesture (For example, the gesture of directing the touch screen of the watch type terminal 200 to the body of the user) is detected by the watch type terminal 200 while the watch type terminal 200 is connected to the second terminal. , the watch type terminal 200 can receive information relating to the account of the electronic purse (SE) from the second terminal connected. In this case, it may be necessary to perform the first user gesture and the second user gesture within a predetermined time interval. For example, if the second user gesture is not detected within a predetermined time after executing the first user gesture, the "link" between the type terminal 200 and the second terminal may be released. The wearable device then displays on the screen information about the electronic purse (SE) account received from the second connected terminal (S520). Here, the electronic purse account information includes all the transaction history and the loaded balance information as well as the user information of the account registered in the at least one of the virtual account, the account. real, the prepaid card and the mobile payment account issued by a financial institution, as well as the points and the amount of money preloaded in the prepaid card, as described above. [0042] The controller may recognize the pre-set user gesture detection described above as an entry of a control command to identify the balance information loaded into the second connected terminal. For example, with reference to FIGS. 6 (b) and (c), when detecting the user's gesture of turning his wrist towards his body while the control operation (the connection to the second terminal) corresponding to the first user gesture executes on the watch type terminal 200, a control command corresponding to the second user gesture (i.e. receipt of the balance information from the second terminal 100A and the display of balance information received) is executed. In other words, if the touch screen 251 of the watch type terminal 200 is directed to the user (i.e., to the user's body), the user can immediately check the information of balance of the second terminal 100A displayed on the touch screen 251. A sign 602 (for example "terminal 1") to identify the second connected terminal and the balance information 601 (for example "balance: 20,000 KRW") received from the The second connected terminal is delivered on the touch screen 251 of the watch type terminal 200. In this case, the sign to identify the second terminal may be issued as a thumbnail image of the terminal, and the balance information receipts can be issued in the form of numbers and a ticket image corresponding to the sum of money. In addition, the balance information received may be presented in the form of a sound (for example a sound indicating that "the balance is KRW 24,000" instead of being delivered on the screen. it is determined that the level of the balance information received (for example the amount of money, the number of points) is less than a preset level (for example the minimum amount of money, the minimum number of points), the The wearable device controller may encourage the user to load the balance by displaying a highlighting effect (e.g., blinking, other color, or size change) of the balance information displayed on the display. touch screen 251 for distinguishing visually or through vibration or sound Specifically, when the level of balance information displayed on the touch screen 251 is below the preset level (e.g., 1000 KRW at u minus), the controller may issue on the touch screen 251 guidance information to encourage the user to perform a money-loading process through the second connected terminal. In another example, such guidance information may be delivered in the form of a voice guide (e.g., a voice indicating "a load of money is needed" or "please load the balance on the terminal"), a preset sound (for example a beep) or a preset vibration. [0043] If the user responds to the balance loading request (for example by making an entry on the balance loading key activated on the touch screen 251), the controller can send, to the second terminal connected, a control command for Immediately run the application to perform a process of loading money on the second connected terminal. At the end of the loading of money on the second terminal, a result of the loading can be immediately sent to the device being carried on oneself, and a corresponding feedback (for example a voice saying: "the loading of money is finished") can be delivered via the touch screen 251 or the sound output unit. [0044] The wearable device then performs an NFC (Near Field Communication) payment processing operation using the information displayed on the display unit 251 (S540). Specifically, if the user puts the in-reach device 200 in close contact with the NFC reader 400 (as shown in FIG. 3) with the information displayed on the display unit 251, the franchise information and the payment information is received and sent to the second connected terminal 100A. Thus, the NFC module of the self-carrying device 200 must be activated before coming into close contact with the NFC reader 400. For example, when the preset user gesture described above is detected on the main body, the NFC module can be activated. Then, the second terminal 100A can make a real payment in interoperation with the payment server 500 previously connected and deduct the payment amount of the electronic purse (SE). The payment process is provided to the self-carrying device 200 and the remaining balance information after deducting the payment amount is displayed on the screen of the self-carrying device 200 (S530). In this case, the user does not perform any action associated with the payment process except for the user's gesture for the connection with the second terminal and the action of putting the device that can be carried in close contact with the device. with the NFC player to make the NFC payment. As shown in Fig. 6 (d), the payment amount information (for example, "payment amount: 1000 KRW") labeled via the NFC reader 400 is displayed on a first region 603 of the 251 touch screen in the self-carrying device 200 and the balance information (for example, "23,000 KRW balance") obtained by deducting the payment amount is displayed on a second region 604 of the 251 touch screen. in addition, the controller notifies the second connected terminal 100A that the NFC payment is complete. In order to save energy, the connection between the reach-able device and the second terminal can be switched to a released state or the communication state can be changed differently (for example a switching can be performed from BT / Wifi wireless low power communication (BLE)). [0045] A specific embodiment in which the self-carrying device makes an NFC payment through a link with the second terminal has been described above. In the embodiment, even when the device that can be worn on one does not keep information relating to the means of payment, the NFC payment function can be performed using the amount of money loaded on the second terminal connected, this which is convenient for the user. According to one embodiment of the present invention, the "link" between the reach-able device and the second terminal is limited to wireless access to perform an NFC payment. Other types of access (for example a simple sharing of data between the device that can be worn on one's own and the second terminal) are distinguished preferably from the link. According to an embodiment of the present invention, the correct "connection" between the self-carrying device and the second terminal must be maintained until the end of the NFC payment. If the "connected" state between the reach-able device and the second terminal is changed while the NFC payment function is running, the user must receive feedback corresponding thereto. FIGS. 7A and 7B are conceptual views illustrating a method for making a connection for an NFC payment via, among other things, a gesture input and a touch input for connecting the self-carrying device. at the second terminal according to an embodiment of the present invention. When a first user gesture is detected, the controller 280 of the reach-able device 200 attempts to connect to a second prerecorded terminal for NFC payment and, accordingly, can provide feedback corresponding to the success or the failure of the link. In addition, the type of feedback that can be delivered is not limited to a particular type. For example, the feedback that may be delivered may include the display of an icon, a voice, a vibration, a change in the LED display and a combination of several of these to indicate the success or failure of the display. 'access. The sensing unit of the self-carrying device 200 can detect different user gestures, a rotation of the main body in different directions, or a biometric signal when it is placed on the main body and it sends the detected result to the controller. The controller can recognize the application of the preset user gesture described above based on the detected result. The detection unit can detect the preset user gesture through a combination of one or more of an acceleration sensor, a magnetic sensor, a gravity sensor, a gyroscope sensor and motion sensor. [0046] The user gesture described above may be limited to a particular gesture previously recorded by the user for security reasons. The user can enter the NFC gesture recording mode in response to a preset entry to record and change the preset user gesture. For example, the user's gesture of extending his arm, turning the touch screen away from his body and then back to his body was described above as an example of the gesture of Preset user. Nevertheless, when the device that can be worn on one does not detect a biometric signal to verify the identity of the user beforehand, it risks being arbitrarily used by a third party, which may constitute a vulnerability of security. [0047] As a result, the user can record and use his own user gesture in the aforementioned NFC gesture recording mode. For example, when the device that can be worn on one is a watch type terminal 200, the user can generate his own user gestures for increased security, by changing the number of rotations of his wrist or the direction of rotation of wrist or by combining a gesture with other inputs (for example a voice, a particular word, or a sequential entry of several touch inputs on virtual regions of the touch screen). [0048] In addition, if its own prerecorded user gesture is detected and the wearable device and the second terminal are thus connected to each other to provide an NFC payment, a feedback (e.g. alert or sound) corresponding to such a link can be issued by the second terminal. The second terminal may display screen information allowing entry to release the link to the reach-able device. In such a case, if the user applies an input to release the link with the wearable device using the displayed screen information, the link between the second terminal and the wearable device is immediately released. , and a feedback indicating such a release (eg a message or a guiding voice saying "the link has been released" or "do you want to try to link again ") can be delivered by the second terminal and the device that can be carried on oneself. Upon release of the link with the reach-on device, the second terminal may provide a control command to maintain the paired state with the wearable device using the screen information described above. . The preset user gesture described above can be implemented in various forms. An operation to "connect" the device that can be worn on the second terminal, an operation to "receive" information relating to the account of the electronic purse (SE) from the second terminal, and an operation to "display" the Information received about the electronic purse account (SE) can be made one after the other or several at a time. [0049] Specifically, when the first user gesture is detected, the controller performs a "link" between the reach-able device and the second terminal and, when the second user gesture is detected, the controller can "receive" and "Display" the electronic purse (SE) account information from the second terminal. Or, when a preset user gesture is detected, the controller can "connect" the device that can be worn on the second terminal, "receive" and "display" the electronic purse account (SE) information. or "receive" and "display" the relevant information from a previously connected second terminal. Or, when the first user gesture is detected, the controller can perform a "connection" between the device that can be worn on one's body and the second terminal; when the second user gesture is detected, it can "receive" the electronic purse (SE) account information from the second terminal; and when the preset touch input is applied to the touch screen 251, it can display the received information on the touch screen 251. As shown in Fig. 7A (a), when detecting the gesture of the user to turn his wrist to the right and to the left a preset number of times (for example twice) with the watch type terminal 200 placed on his wrist, the "connection" between the device that can be worn on one's body and the second terminal can be performed. In other words, if the wrist of the user wearing the watch type terminal 200 is turned to the right and to the left twice or more, the controller 280 can recognize that it is a request for access for an NFC payment. The link with the second prerecorded terminal 100A is then performed, and the payment application is run in the background on the second terminal 100A, which allows access to the payment server 500. In addition, the NFC module of the terminal watch type 200 can be activated. The controller may provide feedback indicating whether the "link" with the second terminal has succeeded, in response to detecting the gesture entry. As used herein, the feedback may include a combination of one or more of a vibration, a sound, and a screen change on the touch screen. For example, when the link between the main body and the second terminal fails, the controller may deliver a first vibration (for example a short duration vibration) to indicate the failure of the link. Visual information to indicate the cause of the link failure (eg a communication failure, a discharged battery, the closing of the electronic wallet (SE) account, etc.) can be displayed in a region of the 251. When successfully linking with the second terminal, the controller can deliver a second vibration (for example a vibration lasting longer than one second) different from the first vibration described above to indicate the success of the link. [0050] As shown in Fig. 7A (b), if the watch type terminal 200 is connected to the second terminal 100A by performing the user gesture shown in Fig. 7A (a), a predetermined vibration is delivered by the main body . When applying a user gesture of rotating so that the touch screen 251 is oriented toward the user's body (i.e. the second user gesture), the 701 balance information received from the second terminal 100A is displayed on the touch screen 251. In another example, if the detection unit detects that the main body is rotated in a first direction, the controller may allow the execution of a control operation ("link") corresponding to the first user gesture described above. If the detection unit detects that the main body is rotated in a second direction by being "connected" to the second terminal, the controller can allow the execution of a control operation corresponding to the second user gesture described above. (Receiving and displaying the information of the account of the electronic purse (SE) equipped in the second terminal). When the connection with the second terminal is established by the rotating gesture so that the touch screen is oriented away from the body of the user, the touch screen of the device can be worn on oneself is no longer visible by the user and the output of the feedback can be limited to a "vibration" allowing the user to know if the "connection" with the second terminal is established without having to look at the screen. FIG. 7B illustrates an example in which access to the second terminal 100A is made by several predetermined touch inputs on the touch screen 251 of the self-carrying device 200. As shown in FIG. 7B (a), the The controller can detect a plurality of touch inputs applied to the display unit with the display unit 251 of the watch type terminal 200 deactivated. In this case, the multiple touch inputs may include a plurality of tap inputs at a preset rate. [0051] If the plurality of touch inputs at a preset rate are applied to the touch screen 251 remaining disabled, the controller switches the touch screen 251 to the activated state and can execute a control command to perform access for an NFC payment , i.e. a "link", with a corresponding second terminal 100A. Unless the plurality of touch inputs applied to the touch screen 251 match the preset rate (recognized as a reactivation operation), the controller switches the touch screen 251 only in the activated state or it can unlock the touch screen 251 (for example the screen saver, the home screen, etc.) while passing from the locked state to the released state. If the plurality of touch inputs applied to 252 correspond to the preset rate, as shown in Fig. 7B (b), visual information (e.g., a message indicating "connected to terminal 1") 702 to indicate that the "link" with the second terminal 100A is established can be issued on a region of the activated touch screen 251, and a 703 icon asking whether the NFC module of the main body is enabled can be displayed. Since the touch screen 251 is facing the user, a feedback indicating whether the "link" with the second terminal 100A is successful can be delivered via the touch screen 251. In this case, if the icon displayed 703 is touched, the NFC module for an NFC payment is activated, and a screen change occurs on the touch screen 251 to display the balance information 705 received from the second connected terminal 100A, as shown in FIG. 7B (c). Fig. 7C is a conceptual view illustrating a method by which a self-carrying device is connected to a second NFC intermediate terminal according to an embodiment of the present invention. If the second terminal 100A equipped with an NFC module makes close contact with the watch type terminal 200 as shown in Fig. 7C (b), with an icon 706 (eg "NFC") indicating that the NFC function is activated on the display unit 251 of the watch-type terminal 200 as shown in FIG. 7C (a), the second terminal 100A and the watch-type terminal 200 are connected to each other by a Bluetooth connection. As shown in Fig. 7C (c), the balance information received from the second terminal 100A is displayed on the touch screen 251 of the display type terminal 200. The controller can monitor the link with the second terminal 100A continuously or at a predetermined interval until the NFC payment is made (i.e. until the payment information is transmitted to the second terminal). Further, when the link with the second terminal 100A is switched to a pairing for a typical data communication or when the communication network maintaining the link is changed to another network in response to the input of the second terminal, the controller can issue an alert so that the device that can be worn on one's body can recognize such a case. [0052] In addition, when, as a result of the monitoring, the link is released before the end of the NFC payment, the controller may provide feedback to indicate such a release and may issue the cause of the release via the screen. Touch 251 or the sound output unit. When the NFC payment is completed but the link is cleared before sending the completed payment information to the second terminal, the controller temporarily stores the completed payment information in the wearable device and, when connected or paired again at the second terminal 100A, the controller sends the temporarily completed payment information stored at the second terminal. The NFC payment function NFC must be activated at least before the self-carrying device 200 is brought into close contact with the NFC reader 400. According to an embodiment of the present invention, when the user preset gesture described above is detected or other preset input is detected with the touch screen 251 of the disable device 200 deactivated, the NFC function of the self-wearing device can be activated. [0053] For example, when the first user gesture is detected, the NFC module of the device that can be worn on one can be activated simultaneously with the "connection" with the second terminal. In other words, the controller can automatically activate the supplied NFC module in the main body when the first user gesture described above is detected so that the "link" with the second terminal is successfully established, or independently such a case. By doing so, the user does not need to perform a separate operation to enable the NFC function. As described above, when a predetermined entry has already been made to connect the hand-held device without an electronic purse to the second terminal, the user can immediately perform the NFC payment simply by putting the device that can be carried around the NFC reader. For example, the present invention is particularly useful in the case where a fast NFC payment, such as the payment of a bus fare, is required. [0054] In another example, when the wearable device is connected to the second terminal, the second user gesture described above, i.e. the gesture of turning the touch screen 251 to the body of the user, is detected or a portion of the touch screen 251 is touched, the payment function NFC of the device can be worn on itself can be activated. If the main body NFC function is enabled, the controller switches a region of the touch screen 251 to the enabled state and can provide a feedback (e.g. an alert icon) corresponding to the activation of the NFC function on the region. In this case, if the NFC module is switched to the off state before the end of the NFC payment, the issued alert icon may disappear or take another form, indicating that the NFC module is switched to state disabled. Fig. 8 is a flowchart illustrating a method by which a reach-able device receives payload information from its second connected terminal, in accordance with an embodiment of the present invention. [0055] First, if a first input (an intuitive preset gesture, a touch input, a voice, an NFC contact, etc.) is detected from the self-carrying device 200 (S801), the application module 23 (Figure 4) is automatically executed to indicate the occurrence of an event (a connection request) (S802). Then, an attempt to "link" with the second terminal 100A is performed through the connection module 21 of the self-carrying device 200 (S803). The connection with the second terminal 100A can be established via Wifi or Bluetooth (BT). Upon receipt of a response corresponding to the link request through the connection module 31 of the second terminal 100A (S804), the self-carrying device 200 sends a request for transmission of balance information by the intermediate of the payment application module 23 (S805). Such a request is encrypted via the security module 22 and is delivered safely to the second terminal 100A. Upon receipt of the request, the security module 32 of the second terminal 100A controls the state of the terminal (S806). In other words, the operating state and the battery status of the second terminal 100A as well as the state of the account of the electronic wallet (SE) are controlled. [0056] Then, the balance information of the electronic purse (SE) 35 equipped in the second terminal 100A is obtained via the payment server 500 (S807), and the obtained balance information is encrypted via the module. 32 and then transmitted to the device that can be worn on one's body (S808). The wearable device then displays the balance information on the touch screen 251 of the self-attachable device 200 when a preset gesture (e.g., the gesture of rotating the touch screen 251 toward the body of the the user) is entered (S809). Even when the device that can be worn on one does not include information relating to the means of payment, the NFC payment can be immediately performed using the information of the balance loaded in the connected terminal. For example, when the user tries to make the NFC payment to pay the rate of the bus that has just taken hastily, the user can establish the connection with the second terminal with an electronic purse by a simple action without having to take out the wallet or terminal and it can make the immediate NFC payment using the identified balance. The user can therefore make a quick payment to pay the rate without any embarrassment. As described above, the NFC payment of the carry-on device according to one embodiment of the present invention assumes that at least the "link" with the second terminal and the "NFC function" are enabled. Fig. 9A is a conceptual view illustrating a method of controlling a next operation when the connection between a reach-able device and a second terminal fails, according to an embodiment of the present invention. [0057] If a first input (an intuitive preset gesture, a touch input, a voice command or an attempt to establish an NFC contact) is applied to the self-carrying device 200, a link request is transferred to the second terminal 100A. If the link to the second terminal receiving the link request fails, the controller may provide feedback indicating the link failure, for example a vibration or sound, to the main body. If a second input, for example the gesture of turning the touch screen 251 to the user's body, is detected from the self-wearing device 200 or if a region of the touch screen 251 is touched, visual information indicating the cause of the failure of the link can be displayed on the region of the touch screen 251. For example, the detection of the gesture of the user turning his wrist away from his body tending the arm opposite its body, with the watch type terminal 200 placed on the wrist of the user as shown in FIG. 9A (a), an attempt to "link" with the second prerecorded terminal 100A is performed. In this case, the link request signal corresponding to the detected gesture can be distinguished from a standard match signal as described above. The link request signal according to one embodiment of the present invention corresponds to a connection request for performing an NFC payment. On receipt of the link request, the second terminal 100A switches the screen of the second terminal from the deactivated state to the activated state and delivers preset screen information (for example a home screen page or screen information delivered most recently). Upon receipt of the link request, the second terminal 100A can control the state of the terminal and output the status information to the display unit. For example, as shown in FIG. 9A (a), a battery image 901 indicating a discharged battery (for example a battery power of less than 2%) can be delivered to the display unit of the second terminal 100A. . [0058] If the user makes the control gesture of the touch screen 251 by turning the wrist carrying the watch type terminal 200 towards his body as shown in Fig. 9A (b), a feedback indicating whether the connection with the second terminal is issued on the touch screen 251. FIG. 9A (b) shows an example in which, as a feedback indicating the failure of the link with the second terminal, visual information 902 (for example a message indicating : "Terminal 1 power off and no response") specifying the cause of the failure of the link are delivered on the touch screen. In case of feedback indicating a failed connection attempt (an intuitive preset gesture, a touch input, a voice command, or an NFC connection attempt) with a first terminal as shown in Figure 9A (c) or a release of the link, an attempt to link with a second terminal 200B (for example a glasses-type terminal) recorded in the device can be worn on oneself can be performed. The order in which a plurality of second prerecorded terminals in the carry-on device are connected to the carry-on device can be determined according to the preset priority order (e.g. the order of recording, a preference of the user, etc.), and such an order can be changed according to an input of the user. In case of failure of the link with the other second terminal 200B, if the user turns the wrist to his body to view the touch screen 251 as shown in Figure 9A (d), visual information 903 indicating the cause of the failure of the link with the second terminal 200B (for example a disconnection between the terminal 2 and the communication network) appear on the touch screen 251. When attempting to link with the other second terminal 200B, if a predetermined number of taps are made on the touch screen 251 which delivers the cause of the link failure (which is recognized as a control command to cancel the most recently executed operation) then the first input is performed again, the link request signal can be sent back to the second terminal 200B. Fig. 9B is a conceptual view illustrating a method of controlling a next operation in the case where, while the NFC payment is performed, the NFC payment function is switched to the disabled state in a self-attachable device according to an embodiment of the present invention. If the link with the second terminal 100A is successfully established while the reach-able device 200 detects the first entry, the balance information (e.g. a message indicating "terminal 1, balance 5000 KRW") 904 and 905 received from the second terminal 100A are displayed on a region of the touch screen 251, and an icon 906 indicating the activation of the NFC function can be displayed on another region of the touch screen 251. If the touch screen 251 delivers the balance information 904 and 905 of the second connected terminal and the icon 906 indicating the operating status of the NFC function, the controller can control the time it takes to establish close contact for an NFC payment. For example, unless the close contact is established within a predetermined time (for example, a few seconds), the on-reach device switches the NFC function to the off state as shown in Figure 9B (b). to remove the icon 906. The wearable device may make changes to the screen to display only the existing clock information on the touch screen 251. A few seconds after the 906 icon indicating the the operating status of the NFC function is delivered to the touch screen 251, if the watch type terminal 200 is brought into close contact with the NFC reader, a message 907 indicating the failure of payment (for example a message indicating " payment failure ") is displayed on a region of the touch screen 251 as shown in Figure 9B (c), and an icon for removing the cause of the failure, i.e. an icon 908 (for example 10 "NFC active ") To activate the NFC function, is displayed on the screen. If the watch type terminal 200 is brought into close contact with the NFC reader while the NFC function is returned to the activated state by the touch of the user on the icon 908, a result of the NFC payment processing is displayed on the touch screen 251, as shown in Figure 9B (d). In other words, if, after the watch-type terminal 200 is brought into close contact with the NFC reader, the gesture of turning the touch screen 251 towards the user's body (ie say the second user gesture) is detected, the controller displays a payment amount NFC 909 (for example "payment amount 1000 KRW") on a region of the touch screen 251 and up-to-date balance information. 910 (for example "balance 4000 KRW") on another region of the touch screen 251. A predetermined time for example a few seconds) after the payment processing, the payment unit can switch the touch screen 251 in the deactivated state as shown in Fig. 9B (e) and releasing the connection with the second terminal 100A or it can change the communication state (for example by switching the Wifi / Bluetooth (BT) communication to the wireless communication low power (BLE)) to minimize the con battery summation. Alternatively, the controller may switch the current output screen to the screen including the existing clock information while maintaining the activated state of the touch screen 301, as described above. Fig. 10 is a conceptual view illustrating a method by which a self-carrying device makes a real payment using a second terminal connected by a Wifi or Bluetooth (BT) communication, according to an embodiment of the present invention. With reference to FIG. 10, when the self-carrying device 200 comes into close contact with the NFC reader 400, a payment request event occurs (S1001). The information corresponding to the payment request is encrypted via the security module 22 and is sent to a second connected terminal 100A (S1002). The second terminal 100A then decrypts the encrypted information and then sends a request to deduct the NFC payment amount to the electronic purse module 35 to the payment server 500 via the payment application 33 executing on task background (S1003). [0059] If the NFC payment amount is deducted (S1004), the deducted balance information is encrypted through the security module 32 and sent to the self-carrying device 200 (S1005). The in-reach device 200 decrypts the received information and displays a payment processing result (S1006). While the NFC payment is made, the "link" between the self-carrying device 200 and the second terminal 100A is maintained. A predetermined time after the end of the payment, the NFC payment function of the self-carrying device 200 returns to the deactivated state, and the connection with the second terminal 100A is released or the communication network maintaining the connection is changed by another network. [0060] Fig. 11 is a conceptual view illustrating an exemplary method of displaying an NFC payment processing result in a wearable device according to an embodiment of the present invention. The controllable device controller 200 displays payment amount information on a first region of the touch screen 251 in response to the completion of the NFC payment, and then displays, on a second region of the touch screen 251, the balance information updated based on the previously displayed balance information and the payment amount information displayed on the first region. For example, as shown in Fig. 11 (a), if the NFC payment is completed, the payment amount (e.g. "1000 KRW") can be displayed on the first region 1101 (e.g., a higher region) of the touch screen 251 and the updated balance (e.g. "3000 KRW") may be displayed on the second region 1102 (e.g., a lower region) of the touch screen 251. [0061] As shown in Fig. 11 (b), a message 1103 asking whether to send a payment processing result (for example a message saying "Would you like to send payment information ") Is displayed on 251. If the user folds his wrist once or opens his hand, the controller recognizes that such a gesture is an entry of a transmission execution command, and the controller issues the payment information to the user. second terminal 100A. This can be distinguished from automatically sending the result of NFC payment processing (pass / fail payment) to the second terminal. For example, when the transmission execution command is received by the second terminal 100A, the second terminal 100A may perform a command to execute the entry of the NFC payment information into an accounting register. In addition, if the user rotates the wrist several times from left to right, the controller recognizes that this gesture is an entry of a transmission rejection command and terminates the NFC payment without any further action. In this case, the NFC payment processing result (pass / fail payment) is sent to the second terminal. A few seconds after the end of the NFC payment, the touch screen 251 of the reach-able device switches to the off state or the screen becomes the existing clock screen as shown in Fig. 11 (c) . The "link" between the watch type terminal 200 and the second terminal 100A can be released or a change to another communication network can be made (for example a switching of a Wifi / Bluetooth (BT) communication to a communication without low power wire (BLE) may occur). [0062] In addition, when the amount to be paid is greater than the amount included in the balance information received or the amount included in the balance information received is greater than the amount to be paid but does not reach a preset reference level, the device may be on one hand 200 according to one embodiment of the present invention can deliver guidance information for guiding a silver load on the touch screen 251. FIGS. 12 and 13 illustrate a method for loading money into a second terminal connected to a device that can be worn on oneself according to an embodiment of the present invention. The controllable device controller may compare the level of the balance information displayed on the touch screen 251 to the reference level and when a result of the comparison indicates that the amount included in the balance information is no higher than the reference level, it can issue, on a region of the touch screen 251, guiding information to guide a loading of money in the electronic purse (SE). Here, the reference level can be a predetermined default value (for example 1000 KRW), a minimum amount or an amount in a minimum range set by a user input. Further, the guidance information may include a series of loading processes for loading the balance into the account of the electronic purse (SE) equipped in the second terminal 100A in a device selected by the user (the device may be carried on oneself or the second terminal), and, if the first step is performed in the loading process, the controller may determine the time to provide information so as to sequentially output the following guidance information on the touch screen 251 In addition, the money is loaded into the second terminal 100A, but the corresponding guidance information can also be delivered to the self-carrying device. During the course of the loading process, the connection between the self-carrying device 200 and the second terminal 100A is maintained. The guidance information is provided for example via the touch screen 251 of the self-carrying device 200. Nevertheless, the present invention is not limited thereto. For example, the guidance information may be delivered in the form of any one or a combination of voice guidance, vibration, screen change on the display unit and of an LED effect. The time to determine whether to load the balance may correspond to the time during which the balance information received from the related second terminal 100A is displayed on the touch screen 251 or the time during which the next payment information after the The NFC payment execution is displayed on the touch screen 251. The controller can configure different reference levels to determine whether to load the balance based on the payment amount displayed on the touch screen 251. [0063] For example, after the NFC payment is executed, the payment amount displayed on the 251 touch screen is 1200 KRW, and the balance information resulting from the deduction of the payment amount is 1100 KRW. It can be determined whether to load the remaining balance information (eg 1100 KRW) on the basis of the payment amount (1200 KRW) instead of the amount (for example 1000 KRW) corresponding to a preset reference level. Referring to Fig. 12, a balance loading request is made through the payment application module which is run in the background on the self-attachable device 200 (S1201). The balance loading request may be made via a response (e.g. key entry) to the guidance information guiding the balance loading as an output on the touch screen 251 as described herein. -above. The security module of the self-carrying device 200 encrypts the balance loading request and sends it to the second connected terminal 100A (S1202). [0064] The second terminal 100A then decrypts the encrypted information and obtains the payment information corresponding to the balance loading request (S1203). Here, the payment information corresponding to the balance loading request means a payment amount for determining whether the level of the balance information received is not greater than the reference level described above. For example, the amount included in the balance information before the NFC payment is less than the amount to be paid or the amount included in the balance information after the NFC payment is less than the payment amount. The second terminal 100A then sends a load request to the payment server 500 via the payment application module executed in the background and identifies the account of the electronic purse (SE) (S1204). The amount entered by the user on the electronic purse account (SE) or a pre-set amount of money is charged (S1205). At the end of the loading of money on the account of the electronic purse (SE), the information is encrypted and is sent to the device that can be carried on itself 200 (S1206). The device that can be worn on the person 200 decrypts the received information and displays the information of the balance loaded on the screen (S1207). Such a loading process can be carried out through the self-carrying device 200 (in this case the actual balance loading is nevertheless carried out according to the process described above). In this case, the guidance information guiding the loading process can be sequentially delivered to the touch screen 251. As shown in Fig. 13 (a), if the NFC payment is made, the payment amount information is displayed on a first region 1301 (e.g., an upper region) of the touch screen 251, and the balance information derived from the deduction of the payment amount is displayed on a second region 1302 of the touch screen 251. In this case , an image 1303 (for example a battery image) indicating the level of the updated balance information can also be displayed. When the amount included in the updated balance information is less than the payment amount, the self-attachable device 200 may recognize that it is a money-loading request event. Guidance information 1304 guiding the payload, such as a message saying, "Would you like to charge money Are then displayed on the touch screen 251 as shown in FIG. 13 (b). The user performs a preset response gesture (or voice input, key input, etc.) to allow sending an amount charge request to the attached second terminal 100A. For example, when the user closes and opens the hand holding the watch type terminal 200 to the wrist, this gesture can be recognized as the input of a control command for transmitting a balance loading request to the second terminal 100A. At the end of the loading process described with reference to FIG. 12, a message 1305 guiding the transmission of information, such as a message indicating "do you wish to receive the amount loaded on the terminal 1 Is delivered on the touch screen 251, as shown in Fig. 13 (c). If the user performs a preset response gesture (or voice input, key input, etc.), the balance information loaded from the second terminal 100A is received. As shown in Fig. 13 (d), the updated balance information 1302 "is displayed on a region of the touch screen 251. An image 1303" which is changed according to the level of the balance information set. day is additionally displayed. [0065] Even if the displayed message 1305 as shown in Fig. 13 (c) contains the visual information asking whether to transmit the "amount" charged, the "amount information" charged is actually transmitted instead of the charged amount. At least during the NFC payment, the self-carrying device 200 must remain energized. For this purpose, according to one embodiment of the present invention, when the battery of the self-carrying device 200 is discharged (a low battery state), a mode of operation other than the function associated with the NFC payment may be restricted. . Fig. 14 is a conceptual view illustrating a method of displaying a result of NFC payment processing when the battery of the carry-on device is discharged according to an embodiment of the present invention. The controller of the reach-able device 200 can monitor the status of the battery during the NFC payment or during the execution of the payment. The state of the battery is associated with the remaining power of the battery, and the controller can control whether the battery level is above or below a reference level (for example, the reference level can be when the power remaining battery is not more than 5%). The reference level may vary depending on a selection of the user, and the reference level may be a preset default value before being changed by the user. The battery level that is not higher than the reference level can be set as a low battery state. The low battery state is the state in which the remaining battery power is insufficient to turn on all terminal functions to perform general functions of the terminal and is sufficient to allow the terminal to operate on an operating system. lightweight only for particular functions. Generally, when the battery voltage is not less than 2.7 V, the NFC payment can be made. Even in the low battery state, it can be made from 20 to 30 NFC payments. When the battery level is not above the reference level, i.e. in the low battery state, the controller of the reach-able device 200 may activate a region of the display 251 to display the balance information received from the second terminal 100A. The controller can switch the remaining region other than the activated region to the disabled state. [0066] With reference to FIG. 14, if the battery level of the self-carrying device 200 is not greater than the reference level, i.e., in the low battery state, visual information 1401 is delivered on the touch screen 251 to allow the user to identify the low battery state. The controller can then restrict the mode of operation other than the function associated with the NFC payment. For example, the controller may switch the touch screen 251 to the off state. In addition, the controller can output an image to encourage the user to charge the battery on the device that can be worn on one's body. In such a situation, if the balance information is received from the connected second terminal 100A, only a region 1403 of the touch screen 251 is activated to display the received balance information (for example "5000 KRW") while the other region 1404 of the touch screen 251 remains off. While the NFC payment is being made, the display of the balance information that has been displayed may cease depending on the state of the battery, as shown in Figure 14 (c). If the NFC payment is completed, only the region 1404 of the touch screen 251 is reactivated to display the payment amount and the balance. Examples of the execution of the NFC payment function using the amount loaded on the second terminal connected to the device that can be worn on the premises, while the device that can be worn on one does not contain information associated with the payment method have been described above. Embodiments in which the carry-on device shares the amount of money with one or more other second prerecorded terminals, when the hand-held device also contains information relating to the means of payment, that is, ie when the electronic purse (SE) is equipped in the device that can be worn on oneself, will be described in detail below. FIG. 15 is a view illustrating an example in which a device that can be carried on oneself equipped with a first electronic wallet is connected to a second terminal equipped with a second electronic wallet according to an embodiment of the present invention. invention. It is assumed that the first electronic purse account is different from the second electronic purse account. [0067] In other words, it is assumed that the first electronic wallet account equipped in the self-carrying device 200 and the second electronic wallet account equipped in the second terminal 100A, instead of being in correspondence and to be registered on the same payment account, adopt payment accounts corresponding respectively to different virtual accounts, different real accounts, different prepaid cards and different deferred payment cards. This usually means that each of the first electronic wallet account and the second electronic wallet account must be charged. [0068] As shown in FIG. 15, the self-carrying device 200 includes a connection module (connection manager) 21, a security module (security agent) 22, a payment application module (application payment) 23, an NFC module 24 and a first electronic wallet (SE) 25. The connection module (connection manager) 21 is a component for making a connection with the second prerecorded terminal 100A. In addition, the security module (security agent) 22 is a component for securely communicating data between the self-carrying device 200 and the second terminal 100A connected to each other. The payment application module (payment application) 23 is an application which runs in the background on the main body for connection with the second terminal 100A in the self-carrying device 200 and is activated by via a predetermined input (a first input as will be described in detail below). The NFC module 24 is a component for tagging the NFC reader to make an NFC payment. The NFC module 24 receives an NFC signal (i.e., a payment request signal) when it comes into close contact with the NFC reader and, in response thereto, sends corresponding payment information. The first electronic wallet (SE) 25 constitutes a method of payment (for example an IC card, a universal subscriber identity module (USIM), a micro-SD, a key, an integrated SE, etc.) which can perform the payment function via a communication with the payment server 500. The balance information of the electronic purse, as will be described hereinafter, may include points or amount of money. money previously loaded for example on a prepaid card, as well as an amount of money or points loaded on at least one of a virtual account, a real account, a prepaid card and an account mobile payment service open at a financial institution. [0069] When a Wifi communication is available, the device 200 that can be worn on one's own can access the payment server 500 directly via the payment application module (payment application) 23 to perform the payment function. When only Bluetooth (BT) communication is available, the reach-able device 200 can access the payment server 500 through the second terminal 100A to perform the payment function. As shown in FIG. 15, the second terminal 100A connected to the self-carrying device 200 may include a connection module (connection manager) 31, a security module (security agent) 32, a module payment application (payment app) 33, an NFC module 34, and a second electronic wallet (SE) 35. The second terminal 100A can maintain the connection with the self-carrying device 200 until the NFC payment is completed. When the reach-able device 200 performs the NFC payment using the first electronic wallet (SE) 25, the self-carrying device 200 can access the payment server 500 through the second terminal 100A. The self-carrying device 200 may perform the NFC payment using the balance of the first electronic wallet (SE) 25 or the second electronic wallet (SE) 35 or it can make the NFC payment using the sum of the balance of the first electronic wallet (SE) 25 and the balance of the second electronic wallet (SE) 35. Here, it is assumed that the first electronic wallet (SE) 25 and the second electronic wallet (SE ) 35 use their respective independent account. When only the second electronic wallet (SE) 35 is used, the second terminal 100A receives payment information and information about the deductible on which the self-carrying device 200 is tagged and sends payment amount information. corresponding to the payment information to the device 200 which can be worn on the body. Unlike what has been described with reference to FIG. 4, the amount loaded on the second electronic wallet (SE) 35 can be transmitted from the second terminal 100A to the first electronic wallet (SE) 25 of the self-carrying device 200. The user can immediately consult the information on the balance loaded on the second electronic wallet (SE) 35 via the device be carried 200 and make a payment using the balance consulted. In other words, a predetermined amount of money is withdrawn from the second electronic purse to make a payment. When the first electronic wallet (SE) 25 and the second electronic wallet (SE) 35 are used, the self-carrying device 200 and the second terminal 100A share the money amounts corresponding to their wallet respective electronics. A predetermined amount of money withdrawn from the first electronic wallet (SE) 25 can be loaded onto the second electronic wallet account (SE) 35 or a predetermined amount of money can be loaded onto the first wallet account. electronic money (SE) 25 through a predetermined input. In other words, this is similar to a transfer from one account to another account. Nevertheless, as will be described hereinafter, according to one embodiment of the present invention, it is not necessary to perform a number of steps for the existing money transfer function, and instead , money transfer between the self-carrying device 200 and the second terminal 100A can be quickly performed through an intuitive gesture of the user. If the NFC payment function is executed, the respective payment applications of the self-carrying device 200 and the second terminal 100A are executed in the background. The self-carrying device 200 and the second terminal 100A are connected to the payment server 500 via their respective payment application. As described above, when the self-carrying device 200 can not perform Wi-Fi communication, the self-carrying device 200 can communicate with the payment server 500 via the connection module. (connection manager) 21 and the second terminal 100A connected to perform the payment function. [0070] Fig. 16 is an exemplary flowchart illustrating a method of operating a self-carrying device equipped with an electronic purse according to an embodiment of the present invention. It is assumed hereinafter that the self-carrying device 200 includes a predetermined compartment unit 175 for equipping an electronic purse (SE). With reference to FIG. 16, the application of a first input can be detected with a portable device equipped with an electronic purse (SE: secure element), for example a watch-type terminal placed on a particular portion of the user's body (eg a user's wrist). If the first input is detected, the controller can access at least one second terminal equipped with an electronic purse (SE: secure element) (S1610). Here, the first input can be detected via a combination of one or more of an acceleration sensor, a magnetic sensor, a gravity sensor, a gyroscope sensor and a sensor. a motion sensor for detecting the gesture of the user carrying the main body 201 on at least a portion of the main body 201 or the strap 202. For example, the first user gesture may be to turn the touch screen provided in the device that can be worn on the body opposite the body of the user while the user extends the arm carrying the device that can be worn on oneself. Nevertheless, the present invention is not limited to the gesture, and the gesture can be adjusted or changed by a certain movement desired by the user. In another example, the first user gesture may be at least one of a preset voice command and a pre-set type of touch input. As used herein, the electronic wallet (SE: secure element) means at least one payment method (eg an IC card, a universal subscriber identity module (USIM), a micro-SD , a key, an embedded SE, etc.) that can access an external server through a payment application to perform the payment function, as described above. In addition, the information relating to the account of the electronic purse, as will be described below, include all points or a sum of money previously loaded on a prepaid card, as well as information of user, a loaded balance, and a history of transactions or other account information stored on at least one of a virtual account, a real account, a prepaid card and a telephony payment account mobile phone with a financial institution. If the first input is detected, the handheld device controller recognizes the first input detected as a control command for a link with the second prerecorded terminal. Specifically, the "connection" of the device that can be carried on oneself with the second terminal means a connected state in which the device that can be worn on oneself 200 is connected to the second terminal to access the electronic purse account (SE: secure element ) equipped in the second terminal. [0071] In other words, a typical connection for data or information communication between the reach-able device and the second terminal is called "pairing" and such pairing can be distinguished from the "link" described above. above. For example, even when the reach-on device is already paired with the second terminal, when the preset user gesture described above is detected, reference may be made to a "link" between the device being able to be ported to 200 and the second terminal and, in this case, the electronic wallet (SE: secure element) equipped in the second terminal is accessible. To allow the user to know if the connection between the device being able to be carried on oneself and the second terminal is a pairing for a typical data communication or a connection to access the electronic purse (SE: secure element), different The types of feedback corresponding to the match and the link, respectively, can be issued. The "link" described above may also include when the reach-able device and the second terminal switch their communication state from a low power wireless communication (BLE: low energy Bluetooth) to a communication to maintain only the state connected to a Bluetooth (BT) or Wifi communication to access the account of the electronic wallet (SE: secure element) equipped in the second terminal when a preset user gesture is detected. Since the in-reach device according to one embodiment of the present invention performs the NFC payment when placed on a particular portion of the user's body, the on-reach device can periodically receive the biometric information. the user to verify the identity of the user first. As used herein, the biometric signal means an electrical signal that is generated from the body of the wearer-wearing user 200. For example, the biometric signal may be any one of an electrocardiogram (ECG) signal, a photoplethymogram signal (PPG) or a galvanic skin response signal (GSR), without being limited thereto. Various types of widely adopted signals in the related art may be included. The self-carrying device 200 may include a plurality of sensors, such as an ECG sensor, a PPG sensor, a body temperature sensor, a heart rate sensor, and a pressure sensor. If the identity of the user is verified based on the user's biometric signal, authentication is automatically performed without a separate authentication process to access the second terminal, NFC payment and money transfer to the user. second terminal connected and charging money. As a result, financial functions have increased security. In other words, the user can allow verification of his identity by simply wearing the device that can be worn on himself 200. Even when connecting with the second terminal or when performing a function requiring security As financial functions, it is not necessary to perform separate authentication steps. The first input for requesting the link with the second terminal, as described above with reference to FIGS. 6 (a) and (b), may be the gesture of the user extending the arm with the wrist carrying the device can be worn on itself 200 turned away from the body of the user, the gesture of turning the wrist away from his body with the arm extended, or both. This is similar to the gesture of the user to put the payment method in close contact with the NFC reader and this allows a smooth pairing with the second terminal by an intuitive gesture corresponding to the access request for the NFC payment. The intuitive gesture of the user can be changed by the input of the user. In another example, the gesture may be implemented in the form of a voice command, a touch input or a close contact, as described above. The controller may also distinguish a link request corresponding to the first entry (i.e., a connection request for NFC payment) from a connection request to perform other functions (e.g., an exchange of content with the second terminal). Specifically, the reach-able device 200 and the second terminal 100A can run the payment applications in the background in response to the connection request corresponding to the first entry and they can be wirelessly connected to the payment server 500. In addition, the controller may provide a feedback corresponding to the connection request corresponding to the first input. In this case, the feedback may be a combination of at least one of a preset vibration pattern, a sound, a message, a screen change on the touch screen, and 'a change of LEDs. For example, different types of feedback may be issued upon successful completion of the connection request corresponding to the first entry and upon failure of the connection request corresponding to the first entry (for example, when the connection is successful, a first vibration (a long vibration) can be delivered and, when the connection fails, a second vibration (a short vibration) can be delivered). If the second input is detected by the carry-on device with the carry-on device connected to the second terminal (S1620), the balance information of the first electronic purse account (SE) equipped in the second terminal 100A are received. As used herein, the second input refers to an input continuously applied with a change in operation corresponding to the first input made to the self-carrying device. Specifically, the second input may be a user input applied to the main body while the wearable device is placed on the body of the user, and the second input may be at least one of a gesture presets, a voice command and a preset type of touch input, which is different from the first input described above. If the second input is detected, the controller may recognize it as an entry of a control command to check information on the balance loaded on the second connected terminal and the information on the balance loaded on the device that can be carried on oneself. When the second entry to check the information on the balance loaded on the second terminal (what is referred to hereinafter as "balance of the first electronic purse account") and the information on the balance loaded on the device which can be carried on oneself (what is referred to hereinafter as the "balance of the second electronic purse account") is a pre-set user gesture, it may be a gesture of user to return the wrist to the body to allow the touch screen 251 to be directed to the user with the control operation corresponding to the first entry (connection to the second terminal) that is executed. Since this is similar to the user gesture to view the touch screen 251, the user can naturally consult balances remaining on the accounts of the plurality of electronic purses through a simple intuitive gesture. Such an intuitive gesture of the user can be changed by a user input and, in another embodiment, it can be implemented in the form of voice control, touch input or close contact. Therefore, the balance of the first electronic purse account received from the second terminal 100A and the balance of the second electronic purse account (SE) equipped in the carry-on device are displayed on the touch screen 251 of so that they can be distinguished from each other (S1630). Specifically, the balance of the first electronic purse account may be displayed on a first region of the touch screen 251, and the balance of the second electronic purse account may be displayed on a second region of the touch screen 251 so as to be visually distinguishable from each other. [0072] The visual distinction is a "highlighting" to differentiate the balance of the first electronic wallet account from the balance of the second electronic wallet account by at least one of an enlargement, a narrowing, a change of color, a blinking and a change of transparency. In addition, the balances displayed on the respective regions can be displayed together with the images indicating their respective corresponding devices (for example, a thumbnail image of the watch terminal and a thumbnail image of the second terminal). [0073] In addition, the self-attachable device 200 may detect the application of a third input while the first information relating to the first electronic purse account and the second information relating to the second electronic purse account is displayed. on the 251 touch screen (S1640). Here, the third input is the user input that is applied to the main body with the self-carrying device placed on the body of the user. The third input may be for example at least one of a preset user gesture, a voice command and a pre-set type of touch input which are different from the first input and the second input described herein. -above. [0074] If such a third input is detected, the controller may recognize it as an input of a control command to transmit a predetermined amount of money to the second connected terminal 100A or to receive a predetermined amount of money from the second terminal 100A. connected. In other words, in response to detection of the third input by the self-carrying device 200, the controller can send at least a portion of a corresponding balance of any one of the first wallet account electronic account and the second electronic wallet account to another. The controller can determine a device (for example, the device that can be worn on oneself) to which at least a portion of the balance is to be sent and the amount to be sent (eg 50% of the balance) based on the third entry. Depending on the type of the third entry (for example a touch input, a gesture or a voice command), different schemes may apply to determine the device to which the balance is sent or the amount to be sent on the basis of the third entry as will be described in detail hereinafter with reference to Figs. 17A, 17B and 17C. If the balance information of the first electronic purse account and the second electronic purse account are updated according to the third entry, the carry-on device performs the NFC payment function using the information of balance (S1660). [0075] Specifically, if the reach-able device 200 is brought into close contact with the NFC reader 400 (FIG. 3) with the balance information displayed on the touch screen 251, the franchise information and the payment information are received and are transmitted to the second connected terminal 100A. [0076] For this purpose, the NFC module of the self-carrying device 200 must be previously activated before approaching the NFC reader 400. According to an embodiment of the present invention, when the first input or the second input is detected by the device can be worn as described above, the NFC module can be automatically activated. The payment amount may be deducted from one of the balance of the first electronic purse account and the balance of the second electronic purse account before being deducted from the other balance or may be deducted from the balance of an electronic purse account corresponding to a preset priority (e.g., assigning the higher priority to the device in close contact for an NFC payment). If the NFC payment is completed, the controller may provide feedback (e.g., sound, vibration, message, screen change, LED effect, etc.) corresponding to a result of the NFC payment processing. For example, when the NFC payment is successful, the updated payment information and balance information can be displayed on the touch screen 251 along with the first vibration (for example a long vibration). In contrast, when the NFC payment fails, a message indicating the cause of the failure may be delivered on the touch screen 251 along with the second vibration (e.g. a short vibration). [0077] If the NFC payment is made while the third entry is not applied at step S1640, the NFC payment is first made for the amount corresponding to the second electronic purse account among the information displayed on the screen. Touch 251 (S1670). In other words, the NFC payment is first made using only the electronic purse (SE) equipped in the self-carrying device 200. In this case, unless it is possible to make the payment only with the amount corresponding to the second electronic purse account, the amount corresponding to the first electronic purse account can be deducted to the amount of the insufficient amount, to thereby process the NFC payment. Or, as described above, guidance information for guiding the loading of the second electronic purse account can be provided. [0078] If the NFC payment is completed, the payment information is displayed on a region of the touch screen 251, and the updated balance information of the second electronic purse account which has been updated based on the information of balance amount are displayed on another region of the touch screen 251. In addition, a result of the NFC payment processing is notified to the second terminal 100A. To reduce the power consumption of the self-carrying device 200, the link between the self-carrying device 200 and the second terminal 100A can be switched to the released state or the communication state can be changed differently. (eg switching from Wi-Fi / BT communication to low-power wireless (BLE) communication). Figs. 17A, 17B and 17C illustrate various examples for sharing the loaded amount on the carry-on device and the amount loaded on the second terminal according to an embodiment of the present invention. If the reach-able device 200 is connected to the second prerecorded terminal 100A, the balance information of the electronic purse account (SE) equipped in the self-carrying device 200 and the balance information of the account of the Electronic purse (SE) equipped in the second terminal 100A are displayed on the touch screen 251. Under such circumstances, if the third input is detected, the self-carrying device 20 can switch from the NFC payment mode. to the money transfer mode. Here, the money transfer mode means a state in which a predetermined amount of money can be transmitted (or received) between the self-carrying device 200 and the second terminal 100A which are connected to one another. other for an NFC payment function. The transfer of money to another terminal 25 or to another account is hereinafter limited for purposes of description. If the reach-able device 200 switches to money transfer mode, the controller of the reach-able device 200 can transfer at least a portion of a corresponding balance of any one of the first account corresponding to the first electronic wallet equipped in the main body 30 and the second account corresponding to the second electronic wallet equipped in the second terminal 100A to the other account. In one example, if a user gesture corresponding to the third entry is applied, the controller can determine the account (or device) to which the balance is sent or the degree of balance (or amount) to be sent, based on the direction or degree of inclination of the main body as detected by the detection unit. Fig. 17A shows an embodiment in which at least a portion of the loaded post is sent from the self-carrying device 200 to the second terminal 100A via a preset gesture. As shown in Fig. 17A (a), if the amount transfer mode is executed, the information 1701a on the balance (e.g. "8000 KRW") loaded onto the self-carrying device 200 and a 1702b image (eg a gas pump image on the dashboard of a vehicle) to visually indicate the degree of change can be displayed on the touch screen 251. In such a state, at the detection of the user's gesture directing the wrist carrying the watch-type terminal 200 to the ground (i.e. the act of filling water in a bucket) while turning the wrist carrying the watch-type terminal 200 in one direction ( for example to the left / right or clockwise / counterclockwise) as shown in Fig. 17A (b), at least a portion of the loaded balance is transferred to the electronic purse account of the second t erminal 100A connected. [0079] In this case, the controller of the self-carrying device 200 can determine the amount to be sent in proportion to the degree of rotation of the wrist and the tilt speed. For example, if the wrist tilt or tilt speed is increased, a large amount of money included in the loaded balance information 1701a (e.g. 80% of the loaded balance information) can be transferred to the door account electronic money of the second terminal 100A. Or the controller of the reach-able device 200 can determine the amount to be sent in proportion to the degree (or difference in height) of the user's wrist movement to the ground. According to one embodiment of the present invention, the identity of the user can be previously verified on the basis of the biometric information received while the user is wearing the self-wearing device 200, eliminating the need for a separate user authentication for a money transfer. If authentication authentication of the user identity fails based on the biometric information received, the money transfer process stops or an alert can be issued. When the money transfer is made, as shown in Fig. 17A (c), the information 1701a on the balance after the transfer (for example "4000 KRW") and a picture 1702b indicating that the degree of loading has changed are delivered on the touch screen 251. In addition, if a gesture in a direction opposite to the direction shown in FIG. 17A (b) (that is to say the act of exiting water from the bucket) is detected, at least a portion of the amount loaded on the second terminal 100A is sent to the electronic wallet (SE) equipped in the self-carrying device 200. [0080] FIGS. 17B and 17C illustrate embodiments in which at least a portion of a silver laden amount is transferred from the self-carrying device 200 to the second terminal 100A (or the second terminal 100A to the 200) via a touch input on the touch screen 251. As shown in Fig. 17B (a), if the money transfer mode is executed, the information 1704 on the loaded balance on the self-carrying device 200 (e.g. "5000 KRW") and an image object 1703 indicating the degree of loading (e.g., clock image indicating a certain time) can be displayed on the display. 251. If the user touches the image object 1703 and slides it in one direction (e.g. counterclockwise) as shown in FIG. 17B (a), a portion of the balance charged is transferred stored on the electronic wallet account of the connected second terminal 100A in proportion to the degree of sliding (in contrast, if the user touches the image object and slides it in another direction (for example in the direction of clockwise), the balance loaded on the second terminal 100A is transferred to the electronic purse account of the device that can be worn on itself 200 in proportion to the degree of slip). Therefore, as shown in Fig. 17B (b), the image object 1703 is moved to a point at which the touch is completed and is displayed, and the balance information 1704 "obtained by deducting the amount transferred corresponding to the displacement of the image object are displayed on a region (for example a lower region) of the touch screen 251. The information 1705 on the amount transferred to the electronic purse account of the second terminal 100A is displayed on another region (for example an upper region) of the touch screen 251. According to another embodiment of the present invention, a fingerprint sensor may be implemented to be activated on a region of the screen 251 which displays the image object.When the user makes a touch to move the image object, the user's identity can be checked once more by checking the fingerprints digita In another embodiment, as shown in Fig. 17C (a), if the money transfer mode is executed, the information 1708 on the balance loaded on the type terminal 200 shows (for example " 5000 KRW ") can be displayed on a first region 25 lb of the touch screen 251, and the information on the balance loaded on the second terminal 100A connected (for example" 15 000 KRW ") can be displayed on a second region 251a of the touch screen 251. In this case, the sizes of the first region 25b and the second region 251a of the touch screen 251, as shown, can be set to be proportional to the balance information of their account. respective electronic purse. In other words, the second region 251a corresponding to the electronic purse account of the second terminal 100A having a higher loaded balance can be set to have a larger size. [0081] In such a state, the controller may transfer at least a portion of a corresponding balance of any one of the electronic wallet account corresponding to the first region 251b and the electronic wallet account corresponding to the second region 251a. to the other account based on the direction and degree of slippage of a touch applied to at least one of the lines 1706a and 1706b defining the first region 251b and the second region 251a of the touch screen 251. For example if the user touches the second line 1706b and slides it into the second region 251a, the electronic purse account of the carry-on device is loaded in proportion to the degree of slippage. As shown in Fig. 17C (b), the second line 1706b is moved and displayed to the point where the touch is terminated, and the balance information 1708 "(e.g." 8000 KRW ") of the electronic purse account of the self-carrying device 200, in which the balance is loaded up to the displacement of the second line, are displayed on the first region 251b changed from the touch screen 251. The balance information obtained after deduction of the door account electronic currency of the second terminal 100A (for example "12 000 KRW") are displayed on the second region 251a changed from the touch screen 251. [0082] At least a portion of the loaded amount can be transferred from the self-carrying device 200 to the second terminal 100A (or the second terminal 100A to the self-carrying device 200) via voice input (eg enter the amount by saying it) or a handwritten input (eg to directly enter the amount to be sent on the touch screen by writing it) in money transfer mode. If the money transfer is completed in the money transfer mode, the controller can issue a feedback indicating whether the money transfer is complete and a result of the transfer. If the money transfer is completed in money transfer mode, the controller can switch from the money transfer mode to the NFC payment function mode. According to the embodiments described above, the amount charged on the self-carrying device 200 can be used for an NFC payment which is performed in the second connected terminal 100A, and the amount loaded on the second terminal 100A can be used for an NFC payment that is made in the 200 connected self-attached device. In this case, the user must be able to view the transaction history of the charged amounts based on the device that made the NFC payment. Figures 18a and 18 are exemplary conceptual views illustrating a method of identifying a result of processing an NFC payment through a self-attachable device according to an embodiment of the present invention. [0083] With reference to FIG. 18A (a), if a predetermined input is applied to the wearable device, for example the watch type terminal 200, or if an NFC payment is completed, a message 1801, for example indicating to consult you the list of the payments Is displayed on the 251 touch screen. In addition, a key 1804a to request the consultation and a key 1804b to omit the consultation are displayed. If the inquiry key 1804a is accessed, a history of transactions in which a payment has been made through the in-reach device during a preset period of time (e.g., weekly or for a period of time). set by the user) is displayed on the touch screen 251, as shown in Fig. 18a (b). Here, the transaction history includes the franchise information and the payment amount 1806a as shown. The transaction history may further include identifying information (eg, the watch terminal or the second terminal) 1806b corresponding to the electronic purse from which the payment amount has been deducted. When there is a large amount of information corresponding to the transaction history, a preset touch input (e.g., a touch up / down entry) can be applied to the touch screen 251. to scroll the output transaction history up or down or an icon to turn page 1805a can be used to move to the next page or the previous page. If the user applies a preset touch input (e.g., a long touch input) to the identification information of a particular terminal displayed on the touch screen 251, i.e., the thumbnail image 1806b_1 of the watch type terminal, only the transaction history 1807 in which a payment has been made via the electronic purse (SE) equipped in the watch type terminal can be displayed on the touch screen 251 like this is shown in Figure 18A (c). [0084] If a region of the touch screen 251, for example, a "previous 1807B" key displayed on an upper region is touched, the screen returns to that shown in Fig. 18A (b). Such transaction history may also be transmitted to the second terminal, and may be automatically entered into an accounting application operating in connection with the second terminal. [0085] Figure 18B illustrates another example of displaying a transaction history. As shown in Fig. 18B (a), if a predetermined entry is applied to the watch type terminal 200 or the NFC payment is determined, a message 1801 indicating for example "would you like to view a list of payments Appears on the 251 touch screen. [0086] If the user touches the displayed message to make an acceptance gesture (for example the gesture of closing and opening the hand), he enters the transaction history mode. Therefore, as shown in Fig. 18B (b), a touch region for viewing a transaction history in which a payment has been made through the second terminal 100A is displayed on the first region 251a of the screen 251, and a touch region for viewing a transaction history in which a payment has been made through the self-attachable device 200 is displayed on the second region 251b of the touch screen 251. If the user touching any one of the first region 251a and the second region 251b of the touch screen 251, a transaction list in which a payment has been made via a device corresponding to the affected region is issued on the touch screen 251 (screen change). Where there is a large amount of information corresponding to the transaction history, as shown in Figure 18B (c) and (d), lists of transactions in which a payment has been made through of a device corresponding to the affected region can be projected to the back of the user's hand or the user's arm via a plurality of projection units 50a and 50b provided in the terminal type shows 200. In addition, such a transaction history can also be transmitted to the second terminal. The transaction history can be automatically entered into an accounting application operating in connection with the second terminal. Figures 19 and 20 are conceptual views illustrating a method of transmitting a charged amount using different communication networks by a second terminal connected to a wearable device according to an embodiment of the present invention. FIG. 19 illustrates an embodiment in which an amount of money is transmitted using a Wifi or Bluetooth (BT) communication via the connection module (connection manager) 21 (FIG. 4) of the device that can be worn 200. As shown in Fig. 19, when the reach-able device 200 detects at least one of a preset gesture, a touch input, and a voice command corresponding to the third entry described above, a money transfer request event occurs (S1901). The money transfer request is sent to the second terminal 100A connected, and the payment application of the second terminal 100A consults the account balance of the electronic purse equipped in the second terminal 100A (S1902). When a result of the consultation indicates that there is an amount of money corresponding to the transfer request, the second terminal 100A deducts a corresponding amount from the electronic purse (SE) account of the second terminal 100A operating in relation with the payment server 500 (S1903). The second terminal 100A then encrypts the deducted amount and sends it to the device that can be worn on one's body (S1904). The device that can be worn on one hand 200 decrypts the information received to load the balance (S1905). The self-carrying device 200 encrypts a result of the loading and transmits it to the second terminal 100A. The second terminal 100A then delivers the result received from the load on the screen. At this point, when the self-carrying device 200 does not load, the balance of the electronic purse (SE) account of the second terminal 100A is increased again (S1908). Given the risk of information leakage in a Wifi or Bluetooth (BT) communication, encryption and decryption are performed during a data communication between the device 200 that can be worn on one's body and the second connected terminal 100A. which secures the loading process. FIG. 20 illustrates an embodiment in which an amount of money is transmitted via an NFC communication using the NFC module 24 (FIG. 4) of the self-wearing device 200. Here, an event of Money transfer request occurs during an NFC contact (S2001). The process (S2002) for consulting the balance of the electronic purse account equipped in the second terminal 100A according to the money transfer request and the process (S2003) of deducting a corresponding amount of money from the account of the electronic purse (SE) of the second terminal 100A in association with the payment server 500 are similar to those shown in FIG. 19. [0087] In this embodiment, the encryption and the decryption of data are not carried out in the process (S2004) for transmitting the amount deducted from the second terminal 100A and in the process (S2006) for loading the balance into the device that can be ported to 200 and then transmission of a result of the loading due to the lower risk of leakage of information compared to wireless or Bluetooth (BT) communications. The balance loading using an NFC contact is particularly useful in the case where the amount to be charged is relatively low or the battery of the second terminal 100A is in an unloaded state. Fig. 21 illustrates other exemplary exemplary wearing devices capable of performing an NFC payment function according to an embodiment of the present invention. As described above, according to one embodiment of the present invention, the amounts respectively loaded on the plurality of devices can be collected on a desired device from a single-portable device, which allows you to make an NFC payment. As a result, the user can effectively utilize a small amount of money remaining in a plurality of electronic purses. According to embodiments of the present invention, an NFC payment can be made with a plurality of second terminals (for example, a watch-type terminal, a glasses-type terminal, a mobile terminal, a portable computer, a terminal of the type ring) 100A, 100B, 100C, 100D and 100E connected to a plurality of other devices that can be worn so as to be worn on oneself (for example, a watch-type terminal, a glasses-type terminal, a terminal that can be worn on ring type). In this case, each device can be equipped with an independent electronic wallet (SE), as described above, and the independent electronic wallet (SE) does not have to be mapped or recorded on a account for performing the NFC payment function according to an embodiment of the present invention. [0088] The NFC payment function can be implemented by executing a particular application installed or downloaded on the self-attachable device 200, according to one embodiment of the present invention. Specifically, the NFC payment function application installed in the carry-on device is controlled. If the connection function corresponding to the first input described above is executed on the controlled application, a connection can be established with a second terminal equipped with an electronic purse (SE: secure element) via the application server ordered. If the information request function corresponding to the second entry described above is executed on the ordered application, the balance information corresponding to the electronic purse (SE) can be received from the second terminal via of the application server ordered and can be delivered to the application's run screen. If the NFC (near field communication) payment function is executed using the balance information delivered on the execution screen, a process result corresponding to the execution of the NFC payment function is displayed on the screen execution of the application. As described above, the self-carrying device according to embodiments of the present invention can perform the NFC payment function by using the loaded amount on the second connected terminal even when the main body does not contain information relating to means of payment. The user can thus make the NFC payment even without charging the amount per device. The payment method information does not need to be kept in the carry-on device, which minimizes the risk of malicious leakage of information that may occur when the device is lost. In addition, the connection with the second terminal and the activation of the NFC function for an NFC payment can be easily performed with an intuitive gesture or with a preset gesture of the user. The payment can therefore be made quickly. In addition, the payment can be made via a single device that can be worn on oneself with amounts of money respectively loaded on a plurality of devices. Thus, small balance amounts in the plurality of electronic purses can be used effectively. According to the embodiment disclosed in the present invention, the method described above can be realized by being stored in the form of processor readable codes in a program storage medium. A ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device and the like are examples of a processor readable medium, and the processor readable medium can be realized under a processor. the shape of a carrier wave (for example, a transmission over the Internet). Since the present functionalities can be realized in various forms without departing from their characteristics, it is to be understood that the embodiments described above are not limited by details of the foregoing description unless otherwise indicated, but they must be widely considered within the scope of the present disclosure as defined in the appended claims. All changes and modifications within the limits of the appended claims or within limits equivalent to the limits of the
权利要求:
Claims (20) [0001] REVENDICATIONS1. A self-wearing device (200), comprising: a touch screen (251); a wireless communication unit (110) configured to communicate with an external terminal (100) including an electronic purse (SE), the external terminal (100) being wirelessly connected to the wearable device (200); and a controller (180) configured for: receiving a preset user gesture, receiving information relating to an electronic purse (SE) account from the external terminal (100) in response to the gesture of preset user, displaying information received on the touch screen (251), and processing an NFC payment (near field communication) using the information displayed on the touch screen (251). [0002] The self-carrying device (200) according to claim 1, wherein the preset user gesture comprises a first user gesture and a second user gesture, and wherein the controller (180) is furthermore configured to perform: the transmission, to the external terminal (100), of a request for transmission of information relating to the account of the electronic purse (SE) in response to the first user gesture, and the display of the information received from the external terminal (100) on the touch screen (251) according to the request in response to the second user gesture. [0003] The mountable device (200) of claim 1, wherein the controller (180) is configured to activate an NFC function for the NFC payment in response to the preset user gesture and the output a feedback indicating that the NFC function is enabled. [0004] The clinch-mountable device (200) of claim 2, further comprising: a detection unit configured to detect that the self-carrying device (200) is rotated in different directions while the device being on the user (200) is placed on a user, wherein the controller (180) is further configured to perform: executing a control operation corresponding to the first user gesture in response to the device being (200) rotated in a first direction, and executing a control operation corresponding to the second user gesture in response to the self-carrying device (200) rotated in a second direction while the operation command corresponding to the first user gesture is running. [0005] The self-carrying device (200) of claim 2, wherein the controller (180) is further configured to output a feedback corresponding to a response of the external terminal (100) according to the request. [0006] The self-carrying device (200) according to claim 5, wherein the feedback comprises at least one or more of a vibration, a sound and a screen change on the touch screen (251). ), and in which, when the link with the external terminal (100) fails, the controller (180) is further configured to perform the output of a feedback corresponding to the failure and the output of information indicative of a cause of failure on the touch screen (251). 25 [0007] The carry-on device (200) of claim 5, wherein the controller (180) is further configured to display balance information corresponding to the electronic purse (SE) account on the touch screen ( 251) when the link with the external terminal (100) is maintained while the preset user gesture is received. 30 [0008] The self-carrying device (200) of claim 1, wherein the controller (180) is further configured to output information indicative of a result of the NFC payment processing on the touch screen (251). when re-receiving the preset user gesture after the NFC payment is complete based on the information displayed on the touch screen (251). [0009] The self-carrying device (200) according to claim 8, wherein the touch screen (251) comprises a first region and a second region distinguished from the first region, and wherein the controller (180) is further configured to perform, when the NFC payment is complete, displaying an NFC payment amount on the first region, updating the electronic purse (SE) account information on the basis of the payment amount. NFC, and displaying updated information on the second region. [0010] The carry-on device (200) of claim 9, wherein the controller (180) is further configured to perform, when a level of the updated information is not greater than a reference level, outputting guidance information to guide a loading of a balance corresponding to the electronic purse (SE) account on the touch screen (251). [0011] The self-carrying device (200) of claim 1, wherein the controller (180) is further configured to perform, when a predetermined time after the completion of the NFC payment has elapsed, switching of the NFC function for the NFC payment in a disabled state and the release of the link with the external terminal (100) or the change of a communication network maintaining the link with another network. [0012] The self-carrying device (200) according to claim 1, further comprising: a power supply unit configured to provide operating power to the self-carrying device (200), wherein the controller (180) ) is furthermore configured to perform, when a level of a battery included in the power supply unit is not greater than a reference level, displaying only the information relating to the electronic purse account ( SE) on a region of the touch screen (251) and switching another region of the touch screen (251) to a disabled state. [0013] The self-carrying device (200) of claim 1, wherein the controller (180) is further configured to perform: recognition of external connectable terminals and execution of a link with a terminal external (100) corresponding to the preset user gesture among the recognized external terminals, when the preset user gesture is received. [0014] The self-carrying device (200) of claim 1, further comprising: a compartment unit formed to be equipped with the electronic purse (SE), wherein the controller (180) is further configured to perform when the preset user gesture is received while the reach-able device (200) is connected to the external terminal (100), displaying on the touch screen (251) first information relating to a user account (100). a first electronic purse equipped in the compartment unit and second information relating to an account of the electronic purse fitted in the external terminal (100) so that the first information is distinguished from the second information. [0015] The self-clinching device (200) of claim 14, wherein the touch screen (251) comprises a first region and a second region distinguished from the first region, and wherein the controller (180) is further configured to perform: NFC payment processing using the first information, and when the NFC payment is completed, displaying an NFC payment amount on the first region, updating the first information based on the amount 30 NFC payment, and display updated information on the second region. [0016] The self-clinching device (200) of claim 15, wherein the controller (180) is further configured to perform: when an amount corresponding to the first information is insufficient to process the NFC payment, the payment processing NFC using the first information and the second information, and when the NFC payment is completed, displaying the NFC payment amount on the first region, updating the first and second information based on the NFC payment amount and displaying updated information about the second region. [0017] The self-clinching device (200) of claim 14, wherein the controller (180) is further configured to perform: when another user gesture is input while the first and second information is displayed on the touch screen (251), transmitting at least a portion of a balance of a corresponding account of any of an account of the first electronic wallet and a second wallet account electronic to the other account. [0018] The self-carrying device (200) according to claim 17, wherein the other user gesture is a preset user gesture, wherein the self-carrying device (200) further comprises a unit detecting device configured to perform the detection of an inclination corresponding to the other user gesture, and wherein the controller (180) is further configured to perform the determination of an account to which at least the portion of the balance is transmitted and a balance degree based on at least one of a direction and a degree of inclination corresponding to the third user gesture. [0019] The self-carrying device (200) of claim 17, wherein the other user gesture is a touch input applied to the touch screen (251), wherein the touch screen (251) comprises a first region displaying the first information and a second region displaying the second information, wherein the controller (180) is configured to perform: displaying an image object dividing the first region and the second region on the screen touch (251), determining the account at which the at least a portion of the balance is transmitted and the balance degree based on the touch input applied to the image object, and displaying the image object at a point where the touch input is released. [0020] A method of controlling a self-wearing device (200), the method comprising: communicating, via a wireless communication unit (110), the self-carrying device (200) , with an external terminal (100) comprising an electronic purse (SE: secure element), the external terminal (100) being wirelessly connected to the self-carrying device (200); receiving, via a controller (180) the self-carrying device (200), a pre-set user gesture; receiving, via the controller (180), information relating to an account of the electronic purse (SE) from the external terminal (100) in response to the preset user gesture, displaying the information received on a touch screen (251) of the self-carrying device (200); and processing, via the controller (180), an NFC (Near Field Communication) payment using the information displayed on the touch screen (251).
类似技术:
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同族专利:
公开号 | 公开日 US9953312B2|2018-04-24| KR102287160B1|2021-08-06| FR3024564B1|2018-08-31| KR20160015693A|2016-02-15| EP2980741A1|2016-02-03| CN105321071A|2016-02-10| US20160034887A1|2016-02-04|
引用文献:
公开号 | 申请日 | 公开日 | 申请人 | 专利标题 US20120030043A1|2010-07-29|2012-02-02|Bank Of America Corporation|Wearable financial indicator| US20140108260A1|2011-10-17|2014-04-17|Capital One Financial Corporation|System and method for token-based payments| US20130332354A1|2012-06-11|2013-12-12|Samsung Electronics Co, Ltd.|Mobile device and control method thereof| US20140089119A1|2012-09-24|2014-03-27|Samsung Electronics Company, Ltd.|Competing mobile payment offers| US20140089672A1|2012-09-25|2014-03-27|Aliphcom|Wearable device and method to generate biometric identifier for authentication using near-field communications| US8725842B1|2013-07-11|2014-05-13|Khalid Al-Nasser|Smart watch| US7099850B1|2001-09-21|2006-08-29|Jpmorgan Chase Bank, N.A.|Methods for providing cardless payment| US9342829B2|2002-10-01|2016-05-17|Andrew H B Zhou|Systems and methods for mobile application, wearable application, transactional messaging, calling, digital multimedia capture and payment transactions| US9619794B2|2002-10-01|2017-04-11|Tiger T G Zhou|Systems and methods for providing compensation, rebate, cashback, and reward for using mobile and wearable payment services, digital currency, NFC touch payments, mobile digital card barcode payments, and multimedia haptic capture buying| US9208505B1|2002-10-01|2015-12-08|Tiger T G Zhou|Systems and methods for providing compensation, rebate, cashback, and reward for using mobile and wearable payment services| US20040122685A1|2002-12-20|2004-06-24|Daryl Bunce|Verification system for facilitating transactions via communication networks, and associated method| US7427024B1|2003-12-17|2008-09-23|Gazdzinski Mark J|Chattel management apparatus and methods| US20050250538A1|2004-05-07|2005-11-10|July Systems, Inc.|Method and system for making card-based payments using mobile devices| US20100205091A1|2004-10-22|2010-08-12|Zevez Payments, Inc.|Automated payment transaction system| US9519898B2|2004-10-22|2016-12-13|Smart Cellco, Inc.|Wearable electronic devices and mobile transactions and/or actions| US20060208060A1|2005-01-18|2006-09-21|Isaac Mendelovich|Method for managing consumer accounts and transactions| US8452654B1|2005-06-16|2013-05-28|Rbs Nb|System and method for issuing rewards to card holders| US8396711B2|2006-05-01|2013-03-12|Microsoft Corporation|Voice authentication system and method| WO2008008830A2|2006-07-11|2008-01-17|Mastercard International Incorporated|Wearable contactless payment devices| US7689508B2|2007-11-20|2010-03-30|Wells Fargo Bank N.A.|Mobile device credit account| CA2774713A1|2009-08-14|2011-02-17|Payfone, Inc.|System and method for paying a merchant using a cellular telephone account| US20100191570A1|2009-01-23|2010-07-29|Joe Phillip Michaud|Loyalty reward program simulators| US20110201306A1|2010-02-15|2011-08-18|Samama Technologies|Systems and methods for unified billing| IL213797D0|2010-06-29|2011-11-30|X6D Ltd|Universal 3d glasses| US8500031B2|2010-07-29|2013-08-06|Bank Of America Corporation|Wearable article having point of sale payment functionality| WO2012061440A2|2010-11-01|2012-05-10|Nike International Ltd.|Wearable device assembly having athletic functionality| US20130030934A1|2011-01-28|2013-01-31|Zumigo, Inc.|System and method for credit card transaction approval based on mobile subscriber terminal location| WO2012135115A2|2011-03-25|2012-10-04|Visa International Service Association|In-person one-tap purchasing apparatuses, methods and systems| US8985442B1|2011-07-18|2015-03-24|Tiger T G Zhou|One-touch payment using haptic control via a messaging and calling multimedia system on mobile device and wearable device, currency token interface, point of sale device, and electronic payment card| US9047600B2|2011-07-18|2015-06-02|Andrew H B Zhou|Mobile and wearable device payments via free cross-platform messaging service, free voice over internet protocol communication, free over-the-top content communication, and universal digital mobile and wearable device currency faces| US9016565B2|2011-07-18|2015-04-28|Dylan T X Zhou|Wearable personal digital device for facilitating mobile device payments and personal use| KR20130022619A|2011-08-25|2013-03-07|엘지전자 주식회사|Mobile terminal and accessory thereof| US8583549B1|2012-04-10|2013-11-12|Hossein Mohsenzadeh|Systems, devices, and methods for managing a payment transaction| US10043161B2|2012-06-29|2018-08-07|Rakuten, Inc.|Information processing device, information processing method, and information processing program product| US20140108241A1|2012-10-08|2014-04-17|NXT-ID, Inc.|Method for Replacing Traditional Payment and Identity Management Systems and Components to Provide Additional Security and a System Implementing Said Method| US11237719B2|2012-11-20|2022-02-01|Samsung Electronics Company, Ltd.|Controlling remote electronic device with wearable electronic device| US20140164082A1|2012-12-06|2014-06-12|Capital One Financial Corporation|Systems and methods for social media referrals based rewards| US20140244365A1|2012-12-29|2014-08-28|DGRT Software LLC|Toll app system| US9021563B2|2013-01-02|2015-04-28|Htc Corporation|Accessory interface system| US20150220924A1|2014-02-04|2015-08-06|Outsite Networks, Inc.|Method and system for linking a customer identity to a retail transaction| US10885510B2|2014-02-21|2021-01-05|Paypal, Inc.|Facilitating payments using wearable devices| US9262759B2|2014-04-10|2016-02-16|Bank Of America Corporation|Wearable device as a payment vehicle| US9430763B2|2014-04-29|2016-08-30|Ncr Corporation|Wearable payment processing device| US10445820B2|2014-06-25|2019-10-15|Paypal, Inc.|Systems and methods for facilitating purchase using gesture| US9942232B2|2014-07-08|2018-04-10|Verily Life Sciences Llc|User control of data de-identification| KR102287160B1|2014-07-31|2021-08-06|엘지전자 주식회사|The wearble device and control method thereof|US9406063B2|2002-10-01|2016-08-02|Dylan T X Zhou|Systems and methods for messaging, calling, digital multimedia capture, payment transactions, global digital ledger, and national currency world digital token| US20100078472A1|2008-09-30|2010-04-01|Apple Inc.|Group peer-to-peer financial transactions| US10380573B2|2008-09-30|2019-08-13|Apple Inc.|Peer-to-peer financial transaction devices and methods| US9002322B2|2011-09-29|2015-04-07|Apple Inc.|Authentication with secondary approver| US8769624B2|2011-09-29|2014-07-01|Apple Inc.|Access control utilizing indirect authentication| US9483763B2|2014-05-29|2016-11-01|Apple Inc.|User interface for payments| US9967401B2|2014-05-30|2018-05-08|Apple Inc.|User interface for phone call routing among devices| KR102287160B1|2014-07-31|2021-08-06|엘지전자 주식회사|The wearble device and control method thereof| US10339293B2|2014-08-15|2019-07-02|Apple Inc.|Authenticated device used to unlock another device| JP2016092476A|2014-10-30|2016-05-23|京セラ株式会社|Electronic apparatus, control method, and control program| JP2016111634A|2014-12-09|2016-06-20|キヤノン株式会社|Information processing apparatus, control method of the same, and program| US9389742B2|2014-12-10|2016-07-12|Pixart Imaging Inc.|Capacitive touch device, capacitive communication device and communication system| US9800292B2|2014-12-10|2017-10-24|Pixart Imaging Inc|Capacitive communication system and Bluetooth pairing method| US9952732B2|2014-12-10|2018-04-24|Pixart Imaging Inc.|Capacitive touch device, capacitive communication device and communication system| US10334431B2|2014-12-23|2019-06-25|Intel Corporation|Near field communications -based offload of NFC operation| CN104640059A|2015-01-23|2015-05-20|小米科技有限责任公司|Method, device and equipment for transmitting data| KR20160108983A|2015-03-09|2016-09-21|삼성전자주식회사|Method and apparatus for preventing loss of wearable electronic device| US10817862B2|2015-09-01|2020-10-27|Bank Of America Corporation|System for authenticating a mobile device for comprehensive access to a facility| US10360560B2|2015-09-01|2019-07-23|Bank Of America Corporation|System for authenticating a wearable device for transaction queuing| WO2017039044A1|2015-09-04|2017-03-09|엘지전자 주식회사|Watch-type mobile terminal| US10438201B2|2015-09-09|2019-10-08|Bank Of America Corporation|System for generating a transaction specific tokenization for a wearable device| US9965966B2|2015-09-10|2018-05-08|Sap Se|Instructions on a wearable device| US20170083101A1|2015-09-17|2017-03-23|International Business Machines Corporation|Gesture recognition data transfer| US10127539B2|2015-09-30|2018-11-13|Bank Of America Corporation|System for tokenization and token selection associated with wearable device transactions| KR20170060504A|2015-11-24|2017-06-01|삼성전자주식회사|Electronic device for performing payment and method of operating the same| KR20170068305A|2015-12-09|2017-06-19|삼성전자주식회사|Electronic device and method for providing an user information| CN105549408B|2015-12-31|2018-12-18|歌尔股份有限公司|Wearable device, smart home server and its control method and system| KR20170096740A|2016-02-17|2017-08-25|엘지전자 주식회사|Mobile terminal and method for controlling the same| US10044710B2|2016-02-22|2018-08-07|Bpip Limited Liability Company|Device and method for validating a user using an intelligent voice print| US10948994B2|2016-02-29|2021-03-16|Huawei Technologies Co., Ltd.|Gesture control method for wearable system and wearable system| CN107220828B|2016-03-22|2020-09-08|阿里巴巴集团控股有限公司|Method, system and device for payment authorization and payment through wearable device| CN105956849A|2016-04-22|2016-09-21|武汉天喻聚联网络有限公司|Security payment system based on wearable device and payment method| JP6789668B2|2016-05-18|2020-11-25|ソニーモバイルコミュニケーションズ株式会社|Information processing equipment, information processing system, information processing method| DK179186B1|2016-05-19|2018-01-15|Apple Inc|REMOTE AUTHORIZATION TO CONTINUE WITH AN ACTION| US10748140B1|2016-05-23|2020-08-18|Wells Fargo Bank, N.A.|Enhanced security for digital wallets in multiple devices| CN106020357A|2016-05-23|2016-10-12|京东方科技集团股份有限公司|Intelligent wearing device, and operation method and apparatus of intelligent wearing device| US9801066B1|2016-06-02|2017-10-24|Duo Security, Inc.|Method for automatic possession-factor authentication| DK201670622A1|2016-06-12|2018-02-12|Apple Inc|User interfaces for transactions| US20180026974A1|2016-07-21|2018-01-25|Htc Corporation|Portable electric device and operating method therefor| CN106231090A|2016-07-28|2016-12-14|宇龙计算机通信科技有限公司|The analog card changing method of a kind of NFC mobile terminal and device| CN106251139A|2016-07-29|2016-12-21|广东小天才科技有限公司|A kind of method of payment for mobile terminal and device| US20180041859A1|2016-08-05|2018-02-08|Avery Dennison Retail Information Services, Llc|Wearable NFC Device For Secure Data Interaction| CN106453032B|2016-08-30|2019-09-10|北京小米移动软件有限公司|Information-pushing method and device, system| US9842330B1|2016-09-06|2017-12-12|Apple Inc.|User interfaces for stored-value accounts| US10496808B2|2016-10-25|2019-12-03|Apple Inc.|User interface for managing access to credentials for use in an operation| CN106709713A|2016-12-16|2017-05-24|捷德(中国)信息科技有限公司|Method for managing multiple wearable devices of user| KR20180093202A|2017-02-10|2018-08-21|삼성디스플레이 주식회사|Electronic device| CN110326014A|2017-03-31|2019-10-11|索尼公司|Information processing unit, information processing method and program| US10992795B2|2017-05-16|2021-04-27|Apple Inc.|Methods and interfaces for home media control| JP6983261B2|2017-05-16|2021-12-17|アップル インコーポレイテッドApple Inc.|User interface for peer-to-peer transfer| US11221744B2|2017-05-16|2022-01-11|Apple Inc.|User interfaces for peer-to-peer transfers| US11201961B2|2017-05-16|2021-12-14|Apple Inc.|Methods and interfaces for adjusting the volume of media| EP3642698A4|2017-06-24|2020-11-25|Kaha Pte. Ltd.|Apparatus and method for selecting devices within an internet of things for connecting and disconnecting| CN107392606B|2017-06-28|2020-08-04|阿里巴巴集团控股有限公司|Account management method and device| US10462129B2|2017-07-10|2019-10-29|Leigh M. Rothschild|System and method for gaining access of devices based on user's identity| JP2019016251A|2017-07-10|2019-01-31|セイコーエプソン株式会社|Display setting method, program, and system| TWI645688B|2017-07-11|2018-12-21|巨擘科技股份有限公司|Wearable device and operating method thereof| KR102301599B1|2017-09-09|2021-09-10|애플 인크.|Implementation of biometric authentication| KR20200136504A|2017-09-09|2020-12-07|애플 인크.|Implementation of biometric authentication| KR20190033966A|2017-09-22|2019-04-01|삼성전자주식회사|Electronic apparatus and controlling method thereof| US10824595B1|2017-10-09|2020-11-03|United Services Automobile Services |Personalized user interface systems and methods| KR20190050624A|2017-11-03|2019-05-13|삼성전자주식회사|Electronic device for providing time information and a method for the same| CN107784497A|2017-11-22|2018-03-09|出门问问信息科技有限公司|NFC payment and wearable device based on wearable device| CN108805539A|2018-02-09|2018-11-13|深圳市微付充科技有限公司|A kind of method of payment, mobile device and storage device that Intrusion Detection based on host snap gauge is quasi-| US10856140B2|2018-02-09|2020-12-01|Ka Wai Wayne LEUNG|Universal passive provisioning unit and method for secure element| US10706396B2|2018-03-19|2020-07-07|Capital One Services, Llc|Systems and methods for translating a gesture to initiate a financial transaction| TWI679856B|2018-03-20|2019-12-11|巨擘科技股份有限公司|Wearable device, wristwatch, and short distance communication switch method| JP2019168890A|2018-03-23|2019-10-03|カシオ計算機株式会社|Electronic terminal, electronic timepiece, security setting method, and program| US10783234B2|2018-04-06|2020-09-22|The Toronto-Dominion Bank|Systems for enabling tokenized wearable devices| KR102045076B1|2018-04-06|2019-11-14|고려대학교 산학협력단|Ring type wireless controller apparatus and wireless control method using the same| US20190327789A1|2018-04-20|2019-10-24|Microsoft Technology Licensing, Llc|Cellular extension on a datalink layer communication channel| CN112561537A|2018-06-03|2021-03-26|苹果公司|User interface for transfer accounts| US11170085B2|2018-06-03|2021-11-09|Apple Inc.|Implementation of biometric authentication| US11100498B2|2018-06-03|2021-08-24|Apple Inc.|User interfaces for transfer accounts| CN108873028A|2018-08-22|2018-11-23|深圳市欧辰技术有限公司|A kind of positioning system| US20200184791A1|2018-12-07|2020-06-11|Floyd Steven Hall, Jr.|Fingernail-attachable covert communications system| US20200280814A1|2019-03-01|2020-09-03|Bose Corporation|Augmented reality audio playback control| US20200302517A1|2019-03-24|2020-09-24|Apple Inc.|User interfaces for managing an account| CN110162183A|2019-05-30|2019-08-23|努比亚技术有限公司|Gesture operation method, wearable device and computer readable storage medium high up in the air| US10996917B2|2019-05-31|2021-05-04|Apple Inc.|User interfaces for audio media control| US11063955B2|2019-10-17|2021-07-13|Leigh Rothschild|System and method for gaining access of devices based on user's identity|
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