巴西专利BR112012020242B1 data operation method for one terminal including three display units and terminal including three di

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专利摘要:
METHOD OF OPERATING DATA FOR A TERMINAL INCLUDING THREE-PIECE DISPLAY UNITS AND TERMINAL SUPPORTING IT. A method of data operation is provided for a terminal that includes three-piece and one three-piece display units and a terminal that supports them. The terminal including three-piece display units including a first display unit and a second display unit arranged adjacent to each other, a third display unit arranged on an opposite side of the first display unit and second display unit, a unit of storage for storing at least one of a display unit power control mode set value controlling power supplied to at least one of the first display unit, second display unit, and third display unit or a mode set value of data transmission direction control used to instruct data to be transmitted, which is generated in accordance with activation of an application program, to at least one of the first display unit, second display unit and third display unit, and one control unit controlling data transmission (...).
公开号:BR112012020242B1
申请号:R112012020242-1
申请日:2011-02-10
公开日:2021-05-04
发明作者:Seung Gi Shin
申请人:Samsung Electronics Co., Ltd；
IPC主号:

专利说明:

technical field
The present invention relates to a terminal. More particularly, the present invention relates to a method of operating multiple application programs by transmitting data on a terminal with three-piece display units and a terminal supporting the same. Background technique
With recent developments in technology to make the size of a terminal miniature while maintaining the electrical capacity of a battery, several functions have been implemented. For example, the terminal has a play file function to play an audio file and a video file that includes previously stored music for listening. In addition, the terminal includes several additional functions such as a camera function for shooting still images or a video camera function for tracking and shooting moving images. Furthermore, the terminal provides a function to form a communication channel with a specific terminal located at a close distance, exchange and control data as well as a mobile communication function using a base station. In addition, the terminal can access Internet to support reading and downloading various information provided from the Internet.
Since a conventional terminal emphasizes portability, it has a disadvantage that a display unit's viewing area is too narrow.
To address the above disadvantage, several methods that increase the display unit's viewing area have been suggested. However, the amount of data capable of being transmitted through a display unit is limited. Disclosure of the invention Technical problem
Therefore, there is a need for a method of operating data from a terminal capable of solving a size limitation of a display unit and properly transmitting data corresponding to an application program. Solution to problem
One aspect of the present invention is to address the aforementioned problems and/or disadvantages and provide at least the advantages described below. Therefore, one aspect of the present invention is to provide a method of operating data for a terminal including three-piece display units and a terminal supporting the same to operate the three-piece display units and to actively and dynamically perform transmission of data according to activation of various application programs to maximize the terminal's usefulness.
In accordance with an aspect of the present invention, a method of operating data for a terminal including three-piece display units is provided. The method includes selecting at least one of setting a display unit power control mode setting value used to control power supplied to at least one of the three-piece display units or setting a power control mode setting value. data transmission direction used to instruct data to be transmitted, which is generated in accordance with activation of an application program, to at least one of the three-piece display units, and transmit data generated by an application program currently activated to at least one of the three-piece display units, according to at least one of the display unit power control mode setting value and the data transmission direction control mode setting value.
In accordance with another aspect of the present invention, a terminal including three-piece display units is provided. The terminal includes a first display unit and a second display unit disposed adjacent to each other, a third display unit disposed on the other side of the first display unit and second display unit, a storage unit for storing at least one of a value. display unit power control mode setting setting controlling power supplied to at least one of the first display unit, second display unit, and third display unit or a data transmission direction control mode setting value used to instruct data to be transmitted, which is generated in accordance with the activation of an application program, to at least one of the first display unit, second display unit, and third display unit, and a control unit to control data transmission corresponding to at least one application program to at least one display unit activated according to at least one of the value display unit power control mode setting setting or data transmission direction control mode setting value.
Other aspects, advantages and salient aspects of the invention will become apparent to those skilled in the art from the following detailed description which, taken in combination with the accompanying drawings, discloses exemplary embodiments of the invention. Advantageous Effects of the Invention
In a method of operating data for a terminal including three-piece display units and a terminal supporting the same in accordance with an exemplary embodiment of the present invention, a user can enable an application program to be used independent of a capable environment. to use the terminal, and easily confirm and operate data transmission according to a corresponding application program. Brief description of the drawings
The above and other aspects, features and advantages of certain exemplary embodiments of the present invention will be more apparent from the following description taken in conjunction with the accompanying drawings, in which:
Figure 1A to Figure 1C are schematic views illustrating a terminal in accordance with an exemplary embodiment of the present invention;
Figure 2 is a block diagram illustrating a configuration of a terminal in accordance with an exemplary embodiment of the present invention;
Figure 3 is a flowchart illustrating a method of operating data for a terminal in accordance with an exemplary embodiment of the present invention;
Figure 4A and Figure 4B are views illustrating examples of a user interface for operating data in a terminal in accordance with an exemplary embodiment of the present invention;
Figure 5 is a view illustrating an example of a user interface for operating data in a terminal according to a second embodiment of the present invention.
In all drawings, it should be noted that like reference numbers are used to represent the same or similar elements, features and structures. Mode for the invention
The following description with reference to the accompanying drawings is provided to aid in a comprehensive understanding of exemplary embodiments of the invention as defined by the claims and their equivalents. It includes several specific details to aid understanding, but these should be regarded as merely exemplary. Accordingly, those of ordinary skill in the art will recognize that various changes and modifications to the embodiments described herein can be made without departing from the scope and spirit of the invention. In addition, well-known descriptions of functions and constructs may be omitted for clarity and brevity.
The terms and words used in the following description and claims are not limited to bibliographic meanings, but are merely used by the inventor to allow a clear and consistent understanding of the invention. Therefore, it should be apparent to those of skill in the art that the following description of exemplary embodiments of the present invention is provided for purposes of illustration only and not for purposes of limiting the invention as defined by the claims only and their equivalents.
It is to be understood that the singular forms "a", "an" and "o, a" include plural referents unless the context clearly dictates otherwise. Thus, for example, reference to "a component surface" includes reference to one or more such surfaces.
Figure 1A through Figure 1C are views schematically illustrating a terminal in accordance with an exemplary embodiment of the present invention. Figure 2 is a block diagram illustrating a configuration of a terminal in accordance with an exemplary embodiment of the present invention.
In the following, exemplary embodiments of the present invention provide a terminal as a folder-type terminal, as an example. However, the terminal is not limited to a folder type. That is, the terminal can be equally applicable to a cursor-type terminal and a slash-type terminal. In a cursor-type terminal case, a first display unit and a second display unit can be provided on the same side surface in a cursor open state. In that case, a third display unit can be arranged on a rear surface of the first display unit or a rear surface of the second display unit. Furthermore, in a case of a bar-type terminal, a first display unit and a second display unit can be mechanically split on a front surface of the same. A third display unit can be provided on a rear surface of the terminal. In this case, the size of the third display unit is less than or equal to that of the first display unit or second display unit. Also, the size of the third display unit is less than, equal to, or greater than the size of both the first display unit and the second display unit. Meanwhile, Figure 1A illustrates a folder-type terminal in which a first display unit and a second display unit are provided on the same plane in a fully open state (ie, a 180 degree hinge open state). Figure 1B illustrates a folder-type terminal in which a third display unit is arranged on a rear surface thereof in a fully open state. In addition, Figure 1C illustrates an appearance of a folder terminal in a partial open state, namely, a 90-degree hinge open state.
Referring to Figure 1A through Figure 2, a terminal 100 in accordance with an exemplary embodiment of the present invention may include a Radio Frequency (RF) unit 110, an input unit 120, an audio processing unit 130, a means of display 140 with three-piece display units, a storage unit 150 and a control unit 160. Such construction has only structural elements for data arrangement and transmission according to activation of an application program. However, the present invention is not limited to a terminal 100 with only the above structural elements. That is, terminal 100 may include still other structural elements, for example, a camera unit, a near-distance communication unit, and a broadcast receiving unit except for the structural elements above. In addition, terminal 100 may include at least one of several sensors, e.g., a geomagnetic sensor, an acceleration sensor for testing an operating state of terminal 100, and may detect an operating state of terminal 100 using the sensors.
Terminal 100 in accordance with an exemplary embodiment of the present invention having a construction described above supports data transmission in accordance with a specific application program to at least one of the three-piece display units in accordance with the selection of various modes to selectively activate the three-piece display units. Therefore, a user can easily and conveniently verify data and use data in accordance with various application programs supported by terminal 100 by activating at least one display unit in accordance with a current environment capable of operating terminal 100. That is, the terminal 100 can vary data arrangement and data transmission ways on display means 140 in accordance with a defined composite display mode of operation of display means 140. In other words, terminal 100 of an exemplary embodiment of the present invention can activate a selected application program according to an input signal generated by a user and a selected application program according to defined program information after a terminal initialization operation, and determine transmission of data generated by a corresponding application program to which a display unit of the display means 14 0 according to the defined composite display operating mode .
In addition, the terminal 100 can determine a form of transmission data, e.g., a data size, a transmission direction or range. Furthermore, the terminal 100 can determine an arranged direction, the size, a range of data to be transmitted on the display means 140, and control data to be transmitted on the display means 140 in accordance with the determined information. Here, the composite display operating mode can include a display unit power control mode and a data transmission direction control mode.
The display unit power control mode can include a standard power display mode, a full display mode, a first-party display mode, a second-party display mode, and a third-party display mode . The default power display mode is set to transmit data only on a first display unit 210 and second display unit 220. The entire display mode is set to perform data transmission on the entire first display unit 210, second unit display 220 and third display unit 230. The first part display mode is set to turn off the first display unit 210 and perform specified data transmission in the third display unit 230 and second display unit 230. 0 display mode The second part display unit is set to turn off the second display unit 220 and perform specific data transmission on the third display unit 230 and the first display unit 210. The third part display mode is set to turn off the first display unit 210 and second display unit 220 and performs specific data transmission only on the third display unit 230.
The data transmission direction control mode may include a standard transmission display mode, a first bi-directional display mode, a second bi-directional display mode, and a third bi-directional display mode. The standard transmit display mode transmits data only on the first display unit 210 and second display unit 220. The first bi-directional display mode transmits data to be transmitted on the third display unit 230 as data corresponding to data to be transmitted in the first display unit 210. The second bi-directional display mode transmits data to be transmitted in the third display unit 230 as data corresponding to data to be transmitted in the second display unit 220. The third bi-directional display mode divides and transmits data to be transmitted in the first display unit 210 and second display unit 220. A user can set multiple data transmissions for at least one of the three-piece display units in accordance with a combination of composite display operating modes . The structural elements of terminal 100 will be described in detail below.
RF unit 110 performs signal transmission and reception functions for RF communication from terminal 100. To do this, RF unit 110 may include an RF transmitter upconverting a frequency of a transmitted signal and amplifying the signal and an RF receiver amplifying it in low noise a received signal and downconverting the signal. In addition, the RF unit 110 can transfer a signal received via an RF channel to the control unit 160 and transmit a signal provided from the control unit 160 via the RF channel. More particularly, the RF unit 110 can transfer data received from another terminal to a designated display unit in a composite display mode of operation under the control of the control unit 160. In that case, a display unit that transmits data received through the RF 110 unit can be changed according to a defined composite display operation mode.
Furthermore, when the RF unit 110 is activated under the control of the control unit 160, various data necessary for operation of the RF unit 110 can be set to be transmitted on the display means 140. Therefore, when the RF unit 110 is activated , data relating to the RF unit 110 can be transmitted on at least one of the display units included in the display means 140. For example, when the RF unit 110 is activated, images related to a call, for example, telephone numbers and information Phonebook entries can be transmitted on at least one of the first display unit 210 and third display unit 230.
In a case of a video call, Picture images can be transmitted. Furthermore, according to the activation of the RF unit 110, data containing images related to a call control can be transmitted in the second display unit 220. Meanwhile, the RF unit 110 can form a data communication channel with a server according to a user's request, and receive specific data, for example, data corresponding to a web page from a corresponding web server. The received data can be transmitted on at least one of the display units included in the display means 140 under the control of the control unit 160.
The input unit 120 receives and transfers the operating signal from a user to control a terminal 100 to the control unit 160. To do this, the input unit 120 includes at least one numeric key and character keys for entering numeric information and character, and control keys for controlling an operation of terminal 100. More particularly, input unit 120 includes keys for generating input signals for rearranging and converting a form of data transmission to be transmitted on display means 140 , for a data transmission switch between display units, and for selection of an application program, and can generate and transfer a corresponding signal according to a user request to the control unit 160. input 120 may include a hinged key, a hot key, or a composite display operating mode selection key to simply select multiple operating modes. of composite display. Namely, the input unit 120 may include a first keymap transmitted via a key or a touchscreen by selecting one of the standard power display mode, full display mode, and the first to third display modes. part, and a second keymap transmitted via a key or a touch screen selecting one of the standard broadcast display mode and the first to third two-way display modes. Here, the specific key or key map transmission is described to set the composite display operating mode. However, the present invention is not limited thereto. Terminal 100 in accordance with an exemplary embodiment of the present invention may transmit a menu screen to define various composite display modes of operation.
The audio processing unit 130 may include an Encoder/Decoder (CODEC), a speaker (SPK) transmitting a decoded audio signal based on the CODEC, and a Microphone (MIC) that collects external audio signals. The CODEC can include a data CODEC that processes data as packet data and an audio CODEC that processes an audio signal as voice. Therefore, the audio processing unit 130 converts a digital audio signal received from the control unit 160 into an analog signal by the audio CODEC at the voice call time of the terminal 100, and reproduces the analog signal using the SPK. In addition, the audio processing unit 130 converts an analog audio signal input from the MIC into a digital audio signal by the audio CODEC, and provides the digital audio signal to the control unit 160. The processing unit of audio 130 in accordance with an exemplary embodiment of the present invention may form an audio pass through certain display units under the control of control unit 160.
In more detail, in a state where specific data is transmitted in the first display unit 210, the second display unit 220, and the third display unit 23 0 according to a user setting or an application program setting, the audio processing unit 130 can form an audio pass for transmitting an audio signal included in data transmitted in the first display unit 210 and third display unit 230 or an audio signal included in data transmitted in the second display unit 220 That is, the audio processing unit 120 can form an audio pass to adaptively transmit an audio signal in accordance with an inclusion presence of an audio signal in data to be transmitted in the three display units, data variation to be transmitted, and previously defined information.
Referring to Figure 1A to Figure 1C, the display means 140 may include two display units that transmit data on the same plane in accordance with a pre-established user operation, e.g., a folder open state, and a localized display unit on the rear sides of the two display units. A flat panel display such as a Liquid Crystal Display (LCD) or an Organic Illuminated Emitting Diode (OLED) is applicable to at least one of the first display unit 210, the second display unit 220, and the third display unit 230, in that case, the display unit 150 may include a display panel controller, a memory that stores image data, and a display element. Here, the first display unit 210, the second display unit 220, and the third display unit 230 can be implemented by different display elements, respectively. That is, although the first display unit 210 and second display unit 220 are implemented by an LCD-type display, the third display unit 230 can be implemented by an OLED-type display. A touch-sensitive panel can be arranged on an upper side of the flat-panel display above. Therefore, the display means 140 can be manufactured with a touch-sensitive screen. In this case, the display unit can support functions of an input unit. Therefore, a user can generate a specific input signal using one of the first display unit 210, second display unit 220, and third display unit 230. First display unit 210, second display unit 220, and third display unit 230 can determine the presence of transmitted data and perform integration data transmission according to a defined composite display operation mode.
For example, the display means 140 can transmit data in the first display unit 210 and second display unit 220 in accordance with activation of an application program by dividing an entire screen according to a condition defined at the time of setting the mode. of full display and the third bi-directional display mode, and transmit data corresponding to the full screen on the third display unit 230. In this case, the size of the third display unit 230 can be implemented similar to the size of the first display unit 210 or the second display unit 220. Therefore, the third display unit 230 may have a screen size smaller than that of the data transmitted in the first display unit 210 and second display unit 220 as the full screen, and transmit data correspondents.
Furthermore, when at least two application programs are activated, the display means 140 can separately transmit data by activated application programs according to a defined composite display mode of operation. For example, the display means 140 transmits data corresponding to a first application program in the first display unit 210 in accordance with setting the entire display mode and the first bi-directional display mode or second bi-directional display mode, while the display means 140 is transmitting data corresponding to a second application program, data corresponding to the first application program or data corresponding to the second application program can be transmitted in the third display unit 230. In addition, the display means 140 divides a display area of the third display unit 230 into two areas according to setting of the full display mode and the third bi-directional display mode, and can transmit data corresponding to the first application program and data corresponding to the second program application in the two divided areas, respectively. Furthermore, the display means 140 can transmit data in at least one of the first display unit 210, second display unit 220, and third display unit 230 in accordance with a user-defined display mode, viz. Display unit power control mode to save power. The setting of various other composite display operating modes on the control unit 160 will be described in more detail below.
Storage unit 150 includes program memory and data memories. Program memory stores a program controlling general operations of terminal 100, for example, an operating system, a program initializing respective constructions of terminal 100, for example, RF unit 110 and display means 140, and a program setting other constructions , for example, a camera or a broadcasting communication unit. More particularly, a composite display operating program can be stored in program memory.
The composite display operating program is a program that controls direction and a way of transmitting data in accordance with a user-defined composite display operating mode, and is loaded into the control unit 160 to support the operation of the display medium. 140. The composite display operating program may include a display unit power control routine and a data transmission direction control routine. The display unit power control routine may include a first subroutine, a second subroutine, a third subroutine, a fourth subroutine, and a fifth subroutine according to a mode setting. of user display. In this case, the first subroutine of the display unit power control routine controls power supply only to the first display unit 210 and second display unit 220. The second subroutine of the unit power control routine display unit control power supply only for the first display unit 210 and third display unit 230. The third display unit power control routine subroutine controls power supply only for the second display unit 220 and third display unit display unit 230. The fourth subroutine of the display unit power control routine controls power supply to the third display unit 230 only. The fifth subroutine of the display unit power control routine controls power supply power to the entire first display unit 210, the second display unit 220, and the third display unit 230. The unit power control routine The display unit may further include a subroutine that controls power supply to only one of the first display unit 210, second display unit 220, and third display unit 230.
The data transmission direction control routine may include a first subroutine, a second subroutine, a third subroutine, a fourth subroutine, and a fifth subroutine according to the setting of the mode. user display. In that case, the first subroutine of the data transmission direction control routine controls data transmission in accordance with activation of at least one application program in all of the first display unit 210, second display unit 220 and third unit of display 230. The second subroutine of the data transmission direction control routine controls data transmission only in the first display unit 210 and third display unit 230. The third subroutine of the transmission direction control routine Controls data transmission only in the first display unit 210 and second display unit 220. The fourth subroutine of the data transmission direction control routine controls data transmission only in the second display unit 220 and third display unit display 230. The fifth data transmission direction control routine subroutine controls data transmission only in one of the first display unit ay 210, second display unit 220, and third display unit 230. Here, respective subroutines check the display unit power control routine to control data transmission only on currently activated display units.
That is, although a display unit to which data is transmitted is designated in accordance with a composite display operating mode, when a corresponding display unit is turned off in accordance with a display unit power control mode, the Data transmission direction control routine can stop data transmission. In addition, the data transmission direction control routine can control a form and a display direction of data to be transmitted on each display unit according to the number of application programs currently activated. To do this, the data transmission direction control routine may include a first subroutine that controls changing a data transmission direction according to the number of application programs currently activated, and a second subroutine receiving a sensor signal with respect to a terminal operating state from a sensor provided at terminal 100 and determining a corresponding data display direction based on the sensor signal.
Data memory can store data created while running application programs, for example, phonebook information, index information, and recorded or played back information. More particularly, data memory according to an exemplary embodiment of the present invention can store information regarding a user-defined composite display mode of operation in a table form. Therefore, the control unit 160 of terminal 100 can check a composite display operating mode table stored in storage unit 150 and a currently designated composite display operating mode to determine which display unit will be turned on or off and also can determine which data corresponding to which application program will be transmitted on the connected display unit.
The control unit 160 performs a general control operation of the terminal 100. In addition, the control unit 160 of the present invention can determine on/off of the three-piece display units included in the display means 140 according to a mode of defined composite display operation, and control data transmission according to a corresponding composite display operation mode. Here, the control unit 160 can arrange data from a memory allocated for data transmission from the display means 140 to be transmitted in the three-piece display units, and control transmission of the data organized in corresponding display units. In that case, the control unit 160 can determine a respective data transmission presence arranged in memory in accordance with a display unit determined to be turned on by the display unit power control routine, and control data transmission only in a specific display unit according to the determination.
In more detail, the control unit 160 can check a current set value of a composite display mode of operation or a set value of a composite display mode of operation received from the input unit 120 to identify as a display mode of operation. current composite is defined. In addition, the control unit 160 can control power supply and data transmission of a display unit according to a display unit power control mode and data transmission direction control mode. For example, when an entire display mode is set, the control unit 160 supplies power to the first to third display units 210, 220 and 230 to control switching on the same. In addition, a first bi-directional display mode is set as the data transmission direction control mode, the control unit 160 can control data corresponding to an application program transmitted in the first display unit 210 to be equally transmitted. on the third display unit 230. When the full display mode and the second bi-directional display mode are set, the control unit 160 can control data to be transmitted on the second display unit 220 to be equally transmitted on the third display unit display 230. When the full display mode and the third bi-directional display mode are set, the control unit 160 can transmit data to be transmitted on the first display unit 210 and second display unit 220 on the third display unit 230 .
Meanwhile, when a first part display mode is set, the control unit 160 can turn off the first display unit 210 and control transmission of data to be transmitted in a corresponding display unit designated in accordance with the control mode of data transmission direction in the first display 210 and third display unit 230 which are currently turned on, respectively. For example, when the first part display mode and the first bi-directional display mode are set, the control unit 160 can supply power to the second display unit 220 and third display unit 230 and control data set to be transmitted on the first display unit 210 not to be transmitted on the first display unit 210, but will only be transmitted on the third display unit 230. Also, when the first part display mode and second bi-directional display mode are defined, the control unit 160 can supply power to the first display unit 210 and third display unit 230, and set data to be transmitted in the second display unit 220 to not be transmitted in the second display unit 220 and to be transmitted only on the third display unit 230.
When an input signal with respect to a defined variation of a composite display mode of operation is generated via the input unit 120 or a menu in a state that a specific display unit is turned on and specific data is transmitted, the control 160 can determine that a display unit is turned on and a display unit transmitting data according to setting a corresponding composite display operating mode, and perform power control of a display unit and control transmission direction of data according to the determined result. In addition, terminal 100 can test an operating state of terminal 100 using a sensor and control a direction of data to be transmitted on respective display units. For example, while terminal 100 transmits data to be transmitted in the first display unit 210 and second display unit 220 to a screen division area of the third display unit 230 divided into a predefined driving mode, e.g. transverse, when an operating state is changed, can split a screen in a vertical mode and control data to be transmitted in the first display unit 210 and second display unit 220 to be transmitted in the split screen. In that case, when data activated by an application program is split into the first display unit 210 and second display unit 220 to be transmitted on a full screen, the terminal 100 can control the third display unit 230 to display the data activated by a full-screen application program.
As described above, the terminal 100 according to an exemplary embodiment of the present invention can easily change the power supply control of three-piece display units and control of data transmission direction to be transmitted in the three-piece display units according to setting of composite display operating mode by a user.
Figure 3 is a flowchart illustrating a method of operating data from a terminal in accordance with an exemplary embodiment of the present invention.
Referring to Figure 3, in the data operation method for the terminal 100, when power is supplied to the terminal 100, it can perform an initialize operation using energy supplied in step 301. When the initialize operation is obtained, a control unit 160 of terminal 100 can determine whether a composite display operating mode is set in step 303. If it is determined that the composite display operating mode is not set, control unit 160 of terminal 100 can control to execute a display mode. default set display operation, for example, to supply terminal power for only a third display unit 230, enable functions of terminal 100, for example, a file play function, a file search function, a network access function , and a function to call, and transmit data generated from an application program activated in the third display unit 230 in step 305. Here, the operation of the third display unit 230 does not it depends on the setting of a composite display mode of operation, but it depends on a set default value, and the third display unit 230 can be replaced by another display unit according to a designer's intention or a user's adjustment.
Meanwhile, when the composite display operating mode is set in step 303, the control unit 160 can check a display mode value of the composite display operating mode set and control data transmission and power supply from the first to third display units in step 307. In more detail, the control unit 160 can check a display unit power control mode value to recognize which of the first to third display units 210, 220 and 230 is set to be on in the currently set composite display operating mode. Furthermore, the control unit 160 can control power supply of a corresponding display unit by checking the display unit power control mode.
Meanwhile, the control unit 160 can control activation of a selected application program according to defined program information after the initialize operation, for example, an idle screen transmission program or a menu transmission program (i.e. , a widget) . In addition, the control unit 160 can check a data transmission direction control mode value of the composite display operating mode to determine whether to transmit a screen generated by the application program, for example, an idle screen and a menu screen for one of the display units. For example, when the first part display mode and the first bi-directional display mode are set, the control unit 160 can control power supply for the second display unit 220 and third display unit 230, transmit a screen menu on the second display unit 220, and transmit an idle screen on the third display unit 230.
In addition, when an input signal to change the composite display operating mode, for example, an input signal to change a first part display mode to a full display mode is generated, the control unit 160 can control providing additional power to the first display unit 210 and transmitting from the idle screen to the first display unit 210. When an input signal to change the composite display operating mode, for example, an input to change the first display mode bi-direction for the third bi-directional display mode is additionally generated, the control unit 160 can control transmission of an idle screen on the first display unit 210, transmission of an idle screen on the second display unit 220, and transmission of an idle screen split screen and menu screen on the third display unit 230. Here, the control unit 160 receives a web page from a web server according to at activation of an access network function. When the web page is set to be broadcast in a full screen of the first display unit 210 and second display unit 220, the control unit 160 can split a screen of the web page to broadcast a portion of the web page in the first display unit 210 and a remaining portion of the web page in the second display unit 220. In addition, the control unit 160 can control transmission of a screen corresponding to a web page in the third display unit 230.
Meanwhile, the control unit 160 can store a composite display operating mode value according to a user's request. Upon reset of terminal 100, a corresponding stored value is applied as a default value to be used as a reference value to determine selective power supply of display units and a specific data transmission direction. To set the composite display mode of operation, the terminal 100 can provide a screen interface including at least one of a specific icon, image or text corresponding to each display mode through a specific screen to help a user easily recognize the display mode, which display unit is turned on and in which mode, and which data is transmitted. To do this, terminal 100 can provide a user interface for setting the composite display mode of operation. The user interface can be transmitted on at least one of the first to third display units 210, 220 and 230 according to the user setting.
When a specific input is generated, the control unit 160 can determine whether a generated input signal is an input signal to change a general display mode of operation in step 309. If it is determined that the generated input signal is a signal input to change a general display mode of operation, the control unit 160 can control to provide a function of terminal 100 in accordance with a display mode set by default in step 305.
Conversely, if it is determined that the input signal generated is not the input signal for changing a general display mode of operation in step 309, the control unit 160 determines whether a corresponding input signal is an input signal for termination in step 311. When the input signal is not the input signal for terminating, the control unit 160 can return to step 307 and control execution of a currently defined composite display operating mode and a terminal function support with based on a currently generated input signal.
A display control method of a terminal with three-piece display units and a construction and function of a terminal supporting the same are described above. An example of a user interface based on the method described above and the terminal will be described below.
Figure 4A and Figure 4B are views illustrating examples of a user interface for operating data in a terminal in accordance with an exemplary embodiment of the present invention.
With reference to Figures 4A and Figure 4B, when a user supplies power to the terminal 100, and an initialization operation is obtained, the terminal can activate a specific application program, for example, a memo creation program. In this case, the user can define a composite display mode of operation with a full display mode and a first bi-directional display mode, namely, the user can select a mode controlling power supply for the first to third units of display 210, 220 and 230 during terminal operation, and a mode controlling transmission of the same data in the first display unit 210 and third display unit 230 at the time of data transmission.
When a memo creation program. is selected and an input signal for activation is generated, as illustrated in Figure 4A, the terminal 100 controls transmission of a memo creation window to the first display unit 210 and transmission of a user interface for input function for creation of memo., for example, a block of QWERTY screens in the second display unit 220. In this procedure, the terminal 100 can interrupt power supply to a touch-sensitive panel provided in the first display unit 210 and disregard a generated touch event from the touch panel. In addition, terminal 100 can set a touch-sensitive panel to operate a QWERTY key pad on the second display unit 220.
Meanwhile, the terminal 100 checks a composite display mode value to control transmission of a memo creation window, to be transmitted on the first display unit 210 on the third display unit 230 as illustrated in Fig. 4B. To do this, the terminal 100 divides a memory area allocated to the display means 140 corresponding to the first to third display units 210, 220 and 230, and organizes data to be transmitted in each display unit into the divided memory areas. By transmitting the same data to the first display unit 210 and third display unit 230 in accordance with a first bi-directional mode set to the composite display operating mode value, the terminal 100 can divide a memory area allocated to the display means 140 in a memory area for the second display unit 200 and a common memory area for the first display unit 210 and third display unit 230.
A corresponding text is illustrated in figure 4A and figure 4B to be simultaneously transmitted on the first display unit 210 and third display unit 230 when a user enters "Current phonebook is" using a QWERTY key pad transmitted on the second display unit 220 When a user receives a specific character using the second display unit 200, the terminal 100 can write a corresponding character in a common memory area, and transmit a character written in the common memory area to the first display unit 210 and third unit of display 230, respectively.
As described above, terminal 100 defines a common memory area for first display unit 210 and third display area 230 and transmits data. However, when the sizes of the first display unit 210 and third display unit 230 differ from each other, memory areas divided to corresponding display units can be defined in a memory area allocated in the middle of display 140. Also, when the terminal allocates a memory area for only the first display unit 210, and transmits data recorded in the first display unit 210 to the third display unit 230, performs corresponding data scaling by referring information related to display unit characteristics of the third unit display unit 230 and transmits the scaled data to the third display unit 230. Display unit characteristics include collected information related to a corresponding display unit while initializing during terminal 100 initialization.
As described above, a method of operating data for a terminal including three-piece display units and an apparatus thereof can transmit data by activating a specific application program in accordance with a composite display operating mode defined in various modes. . Therefore, a user verifies data by operating the second display unit 220 by the first display unit 210 and transmits the verified data to the third display unit 230 in such a way that another user can easily and quickly confirm corresponding data.
Figures 5A and Figure 5B are views illustrating an example of a user interface for operating data in a terminal in accordance with an exemplary embodiment of the present invention. In an exemplary implementation, a user powers a terminal 100 to activate a game application program, as an example.
Referring to Fig. 5A, to support a game application program selected by a user, the terminal 100 can control the first display unit 210 to transmit a run screen necessary for the game application program, and the second display unit display 22 0 to transmit a control key map screen to play the game. In that case, terminal 100 can control the operation of the control key map to adjust a torque-sensitive panel of the second display unit 220.
With reference to Fig. 5B, terminal 100 can split a screen of third display unit 230 to simultaneously transmit a screen transmission of run screen from first display unit 210 and a control key map screen on second display unit 220 , and simultaneously transmits a corresponding run screen and the control key map screen in split screen. In this procedure, the terminal 100 can interrupt power supply to a torque-sensitive panel arranged in the third display unit 230 and control a touch event generated in the touch-sensitive panel to be invalid according to user setting. Furthermore, the terminal 100 can define a transmission area of a control key map corresponding to the second display unit 220 between touch panel areas arranged in the third display unit 230 according to a user setting in which a touch event via a control key map is generated. Therefore, the user using the third display unit 230 can generate a specific touch event using a transmission area of a control key map. In addition, terminal 100 can perform scaling of data to be transmitted in each display unit to transmit data to be transmitted in first display unit 210 and second display unit 220 to third display unit 230, and transmit the scaled data on the third display unit 230. Therefore, the user using the third display unit 230 can check which scheme for using the first display unit 210 operates a control key map on the second display unit 220.
Meanwhile, data to be transmitted in at least one of the first display unit 210 and second display unit 220 is transmitted in the third display unit 230 are described above. However, the present invention is not limited thereto. That is, the terminal 100 can transmit a portion of data to be transmitted on the first display unit 210 and a portion of data to be transmitted on the second display unit 220 on the third display unit 230 in accordance with the user setting. For example, assuming that several menu items and specific texts are transmitted on the first display unit 210, the terminal 100 can only transmit a specific text to be transmitted on the first display unit 210 to the third display unit 230. , the terminal 100 can define a portion of the data transmission area of the first display unit 210 to be transmitted on the third display unit 230, and allows a user to define the data portion transmission area.
The user interface was described based on data transmission with respect to a memo creation program, and a game application program. However, the present invention is not limited thereto. For example, the terminal 100 in accordance with an exemplary embodiment of the present invention can control the first display unit 210 and the third display unit 230 to transmit screens collected by a camera at the time of generating an input signal to activate a function of camera, and control the second display unit 220 to transmit a control key map to control a camera. Therefore, a user photographed by the camera can easily and quickly recognize which scheme operates the camera for photographs. In addition, the terminal 100 can control the first display unit 210 and the third display unit 230 to transmit broadcasting signals collected over a specific channel at the time of generating an input signal for activating a broadcasting receive function, and controls the second display unit 220 to transmit a screen map to select a channel. In that case, the terminal 100 can trigger a channel and channel change transmission in the third display unit 230 independently of the first display unit 210 in accordance with the presence of support of the terminal 100 and user adjustment. To do this, terminal 100 can provide a function capable of storing a plurality of channels. Therefore, multiple users can watch their desired channels through respective display units respectively.
The user interface has been described in such a way that a composite display operating mode is defined to be divided into a display unit power control mode and a data transmission direction control mode, as an example. However, the present invention is not limited thereto. Namely, the terminal 100 can provide a specific mode composed of a set of the display unit power control mode and the data transmission direction control mode. For example, terminal 100 may define a full display mode as a mode that supplies power to all first to third display units 210, 220 and 230 and equally transmits data to be transmitted in the first display unit 210 to the third unit of 230 display, and provides a corresponding display mode. In addition, terminal 100 can define a full display mode as a mode that supplies power to all first to third display units 210, 220, and 230 and transmits data to be transmitted in the first display unit 210 and second display unit. display 220 for the third display unit 230.
As illustrated above, the terminal 100 can control the user to set a composite display mode of operation of a combination of first multiple display modes with display unit power control mode and second multiple display modes with display mode. data transmission direction control. In that case, as described above, the terminal 100 can support a mode change via a specific key of the input unit 120, an icon transmitted for mode change on the touch screen and a specific mode change according to the selection . In addition, terminal 100 can provide user interface to which various information to set a display mode is provided, such that a user can easily recognize information regarding power supply display and data transmission direction accordingly. with each mode. As described above, an exemplary embodiment of the present invention may support interrupting power supply of the specific display unit in accordance with the selection of a composite display mode of operation to save energy.
As described above, the terminal 100 can promote constructions such as a near distance communication module for near distance communication in a provided form, a camera module that photographs moving/still images of a subject, an interface for transmitting/receiving data. due to a wired communication scheme or a wireless communication scheme of the terminal 100, an internet communication module which performs an internet function communicating with the internet, digital broadcasting module which performs digital broadcasting reception and ringing functions. Since structural elements can be varied in varying ways according to a convergence trend of a digital device, all elements cannot be described. Structural elements equivalent to the above structural elements may be included in the portable terminal 100 in accordance with the present invention. Furthermore, the terminal 100 can be replaced by specific constructions in the above arrangements in accordance with the form provided or other structure, which can be easily understood by those skilled in the present art.
Furthermore, the terminal 100 with a display means including the three-piece display units in accordance with an exemplary embodiment of the present invention can provide a communication service in accordance with various communication schemes. For example, the portable terminal can be applicable to all kinds of information and communication devices and multimedia devices like Portable Multimedia Player (PMP), a Personal Digital Assistant (PDA), a smart phone, a Moving Picture experts Group ( MPEG)-1 or MPEG-2 Audio Layer 3 (MP3) player, a portable game terminal, a corded telephone and a cordless telephone, a Smart Phone, and the like, and applications thereof as well as all terminals which operate on the basis of communication protocols corresponding to various communication systems.
Although the invention has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and detail can be made thereto without departing from the spirit and scope of the present invention as defined in the claims appendices and their equivalents.

权利要求:
Claims (15)
[0001]
1. Data operation method for a terminal including three display units, a first display unit (220) and a second display unit (230) arranged on a front surface of the terminal, a third display unit (210) arranged on a rear surface of the terminal, and the third display unit (210) being opposite the first display unit (220) the method being characterized in that it comprises: defining at least one of a plurality of operating modes used to instruct data to be displayed, the data being generated in accordance with activation of an application program, for at least one of the three display units; and displaying the data generated by the activated application program for the at least one of the three display units, in accordance with the defined operating mode, wherein displaying the data generated by the activated application program comprises: displaying, in accordance with the defined mode of operation, a user interface for receiving user input in the second display unit (230), and a transmission corresponding to the user input received to at least one of the first display unit (220) and the third unit of display (210).
[0002]
2. Method according to claim 1, characterized in that the plurality of operating modes comprises a display unit power control mode and a data transmission direction control mode, and in which the mode A display unit power control system comprises at least one of: an entire display mode in which power is controlled to be supplied to all three display units, in a state where a first display unit (220) and a second display unit (230) of the three display units are arranged adjacent to each other, and a third display unit (210) is arranged on an opposite side of one of the first display unit (220) and the second display unit ( 230); a first part display mode in which a power supply to the first display unit (220) is interrupted and power is supplied to the second display unit (230) and the third display unit (210); a second part display mode in which a power supply to the second display unit (230) is interrupted and power is supplied to the first display unit (220) and the third display unit (210); a third party display mode in which a power supply to the first display unit (220) and the second display unit (230) is interrupted and power is supplied to the third display unit (210); and a default power display mode in which power is supplied to the first display unit (220) and the second display unit (230).
[0003]
3. Method according to claim 2, characterized in that the data transmission direction control mode comprises at least one of: a standard transmission display mode in which data is controlled to be displayed for a first display unit (220) and a second display unit (230) in a state where the first display unit (220) and the second display unit (230) of the three display units are arranged adjacent to each other, and a third display unit (210) is disposed on an opposite side of the first display unit (220) and the second display unit (230); a first bi-directional display mode in which the same data to be displayed on the first display unit (220) is displayed on the third display unit (210); a second bi-directional display mode in which the same data to be displayed on the second display unit (230) is displayed on the third display unit (210); and a third bi-directional display mode in which the same data to be displayed on the first display unit (220) and second display unit (230) are displayed on the third display unit (210).
[0004]
4. Method according to claim 3, characterized in that in the third bi-directional display mode the display of data comprises: dividing a screen of the third display unit (210); and dividing and displaying data to be displayed on the first display unit (220) and the data to be displayed on the second display unit (230) on respective split screens.
[0005]
5. Method according to any one of claims 1 to 4, characterized in that it further comprises detecting an operating state of the terminal, wherein the display of data comprises changing a transmission direction of the data to be displayed in the third unit of display (210) to at least one of a transverse mode and a longitudinal mode according to the operating state of the terminal.
[0006]
6. Method according to claim 3, characterized in that it further comprises displaying data according to the definition of the third bi-directional display mode, wherein the display of data comprises: displaying data generated according to activation of an application program for the first display unit (220) and second display unit (230) with a full screen, and displaying the data to the third display unit (210).
[0007]
7. Method according to claim 1, characterized in that it further comprises: receiving an input signal to adjust at least one of the display unit power control mode and the transmission direction control mode. Dice; and display a user interface corresponding to the defined control mode according to the input signal.
[0008]
8. Terminal including three display units, the terminal being characterized in that it comprises: a first display unit (220) and a second display unit (230) arranged adjacent to each other on a front surface of the terminal; a third display unit (210) disposed on a rear surface of the terminal, the third display unit (210) being opposite the first display unit (220); a storage unit for storing at least one mode among a plurality of operating modes used to instruct data to be displayed, the data being generated in accordance with activation of an application program for at least one of the first display unit ( 220), the second display unit (230) and the third display unit (210); and a control unit for defining at least one mode of the plurality of operating modes and displaying the data generated by the activated application program for at least one of the three display units according to the at least one defined operating mode, wherein displaying the data generated by the activated application program comprises: displaying, according to the defined operating mode, a user interface for receiving a user input for the second display unit (220), and an output corresponding to the input of user received for at least one of the first display unit (230) and the third display unit (210).
[0009]
9. Terminal according to claim 8, characterized in that the plurality of operating modes comprises a display unit power control mode and a data transmission direction control mode, and in which the mode A display unit power control system comprises at least one of: an entire display mode in which power is controlled to be supplied to all three display units in a state in which a first display unit (220) and a second display unit (230) of the three display units are arranged adjacent to each other, and a third display unit (210) is arranged on an opposite side of one of the first display unit (220) and the second display unit ( 230); a first part display mode in which a power supply to the first display unit (220) is interrupted and power is supplied to the second display unit (230) and the third display unit (210); a second part display mode in which a power supply to the second display unit (230) is interrupted and power is supplied to the first display unit (220) and the third display unit (210); a third party display mode in which a power supply to the first display unit (220) and the second display unit (230) is interrupted and power is supplied to the third display unit (210); and a default power display mode in which power is supplied to the first display unit (220) and the second display unit (230).
[0010]
10. Terminal according to claim 9, characterized in that the data transmission direction control mode comprises at least one: a standard transmission display mode in which data is controlled to be displayed to the first unit for the display (220) and for the second display unit (230); a first bi-directional display mode displaying the same data as that to be displayed on the first display unit (220) to the third display unit (210); a second bi-directional display mode in which the same data to be displayed on the second display unit (230) is displayed on the third display unit (210); and a third bi-directional display mode in which the same data to be displayed on the first display unit (220) and the second display unit (230) are displayed on the third display unit (210).
[0011]
11. Terminal according to claim 10, characterized in that it further comprises at least one of an input unit and a touch-sensitive screen to generate an input signal to change the data transmission direction control mode , in which the control unit is further configured to change the data transmission direction control mode according to the input signal, and display data for a designated display unit in the data transmission direction control changed mode .
[0012]
12. Terminal according to claim 10, characterized in that the control unit is further configured to divide a screen from the third display unit (210), and divide and display data to be displayed on the first display unit ( 220) and data to be displayed on the second display unit (230) on respective split screens.
[0013]
13. Terminal, according to any one of claims 8 to 12, characterized in that it further comprises a sensor to detect an operating state of the terminal, in which the control unit is further configured to change a data transmission direction to be displayed on the third display unit (210) for at least one of a transverse mode and a longitudinal mode according to the operating state of the terminal.
[0014]
14. Terminal according to claim 10, characterized in that the control unit is further configured to display data generated in accordance with the activation of an application program to a full screen of the third display unit (210) when the third bi-directional display mode is set and displays data for the first display unit (220) and second display unit (230) with a full screen.
[0015]
15. Terminal according to any one of claims 8 to 14, characterized in that it further comprises at least one of an input unit and a touch-sensitive screen configured to generate an input signal for adjusting the control mode of display unit power and data transmission direction control mode, wherein at least one of the first display unit (220), the second display unit (230), and the third display unit (210) displays a user interface to adjust the control mode according to the input signal.

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同族专利:

公开号 | 公开日

WO2011099784A3|2011-11-24|

EP2534575A2|2012-12-19|

WO2011099784A2|2011-08-18|

RU2596980C2|2016-09-10|

AU2011214998B2|2015-11-19|

RU2012139017A|2014-03-20|

KR20110093327A|2011-08-18|

EP2534575A4|2013-09-04|

US20110199361A1|2011-08-18|

BR112012020242A2|2017-10-24|

JP2013519913A|2013-05-30|

CN102754067A|2012-10-24|

AU2011214998A1|2012-08-30|

US9317242B2|2016-04-19|

KR101622635B1|2016-05-20|

CN102754067B|2016-04-27|

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CN110543287A|2019-08-01|2019-12-06|华为技术有限公司|Screen display method and electronic equipment|

US11200072B2|2019-10-01|2021-12-14|Microsoft Technology Licensing, Llc|User interface adaptations based on inferred content occlusion and user intent|

法律状态:
2019-01-08| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

2019-09-17| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

2020-09-08| B07A| Technical examination (opinion): publication of technical examination (opinion) [chapter 7.1 patent gazette]|

2021-03-09| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

2021-05-04| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 10 (DEZ) ANOS CONTADOS A PARTIR DE 04/05/2021, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

KR1020100013295A|KR101622635B1|2010-02-12|2010-02-12|Data Operation Method For Terminal including a Three-piece display units and Terminal for supporting using the same|

KR10-2010-0013295|2010-02-12|

PCT/KR2011/000886|WO2011099784A2|2010-02-12|2011-02-10|Data operation method for terminal including three-piece display units and terminal supporting the same|

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