• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    user guidance with mobile electronic devices. the present invention relates to the orientation of the visitor (120) (for example, directions of movement) through a portable electronic device (140). the visitor (120) can read a tag containing information (230) with the electronic device (140) to enter location information in the device (140). with the electronic device (140), the visitor (120) can then select one or more destinations. the device (140) then provides directions for the visitor (120) to one or more destinations.
    公开号:BR112013017984B1
    申请号:R112013017984-8
    申请日:2012-03-22
    公开日:2021-03-23
    发明作者:Paul Friedli;Markus Kappeler
    申请人:Inventio Ag;
    IPC主号:
    专利说明:

    [0001] [0001] The present invention relates to technologies to guide a user, for example, to or in a building or other structure.
    [0002] [0002] When a user visits a location (for example, an unknown building), directions provided by a machine can help the user reach a given destination. Custom directions for one or more users are, in general, more useful. Navigation devices based on satellite data (for example, Global Positioning System (GPS) devices) are sometimes not effective in locations where a suitable satellite signal cannot be received, including underground locations or locations in a building.
    [0003] [0003] In patent document WO2009 / 132696A1, a method for guiding a passenger in a building comprises, for example, the following: at least part of the destination information is transmitted to at least one building management unit, using a mobile communications unit, at least one destination area is determined from the transmitted destination information; at least part of the information is transmitted to the mobile communication unit; and the transmitted guidance information is emitted by the mobile communication unit to guide the passenger to the determined destination area.
    [0004] [0004] A user can receive guidance (for example, directions and movement) through a portable electronic device. The user can read a tag containing information with the electronic device to enter location information on the device. With the electronic device, the user can then select one or more destinations. The device then provides directions for the user to one or more destinations.
    [0005] [0005] In some embodiments, a user guidance method for installing an elevator comprises: receiving location information from a portable electronic device in an area served by an elevator installation, the location information being based at least in part on data read from an optical code or a radio tag located in the area served by the elevator installation; receiving and one or more destinations of the user of the portable electronic device; and transmitting user guidance information to the portable electronic device, the user guidance information being based at least in part on the location information and on one or more user destinations received. At least a portion of the user guidance information can be proportional by an elevator control system. The method may further comprise authentication of the portable electronic device. The method may also comprise defining an elevator car arrival time based at least in part on location information. The possible destination information can be transmitted to the portable electronic device, one or more user destinations received being selected from one or more destinations described in the information transmitted from possible destinations. The user guidance information may comprise an elevator assignment. Transmission and reception can take place over the internet. The user guidance information can comprise a direction of movement for the user.
    [0006] [0006] In other embodiments, an elevator installation comprises: a location information tag comprising an optical code or a radio tag, the location information tag being positioned in an area served by the elevator installation; an elevator control system; and a server coupled to the elevator control system, in which the server is configured to carry out a method, the method comprising: receiving starting location information from a portable electronic device in the area served by the elevator installation, the location information of departure being based at least in part on data read from the location information tag; receiving one or more user destinations from the portable electronic device and transmitting guidance information to the portable electronic device, the guidance information being based at least in part on departure location information and on one or more user destinations. In some embodiments, the area served by the elevator installation comprises a space, the location information tag being located in the space, the location information tag being one of a plurality of location information tags located in the space. The user guidance information may comprise an elevator assignment. The elevator assignment can be based at least in part on a user identification of the portable electronic device. The elevator installation may further comprise a transmission and reception means for sending a first set of data to the portable electronic device and receiving a second set of data from the portable electronic device.
    [0007] [0007] Unless otherwise mentioned, the method actions disclosed herein may be performed by a processor executing instructions stored on one or more computer-readable storage media. Computer-readable storage media comprise, for example, one or more optical disks, volatile memory components (such as, DRAM or SRAM) and / or non-volatile memory components (such as, hard disks, FLASH RAM or ROM) . Computer-readable storage media do not include transient signals.
    [0008] [0008] Various types of technologies disclosed are further described below with reference to the following figures, in which:
    [0009] [0009] FIG. 1 shows a block diagram plan view of an exemplary configuration for use of at least some modalities of the disclosed technologies.
    [0010] [00010] FIG. 2 shows a block diagram of an exemplary embodiment of a system to guide one or more visitors.
    [0011] [00011] FIG. 3 shows a block diagram of an exemplary embodiment of a method for providing orientation information to the visitor.
    [0012] [00012] FIGURES 4A - 4C show block diagrams of exemplary modalities of user interfaces shown on a mobile device.
    [0013] [00013] FIG. 5 shows a block diagram of an exemplary embodiment of a method for providing orientation information to the visitor.
    [0014] [00014] FIG. 6 shows a block diagram of an exemplary embodiment of a method for providing orientation information to the visitor.
    [0015] [00015] FIG. 7 shows a block diagram of an exemplary embodiment of a method for providing orientation information to the visitor.
    [0016] [00016] FIG. 8 shows an exemplary mode of signal exchange.
    [0017] [00017] FIG. 9 shows a block diagram of an exemplary form of a mobile device that can be used with one or more technologies disclosed herein.
    [0018] [00018] FIG. 10 shows a block diagram of an exemplary modality of a server, which can be used with one or more technologies disclosed herein.
    [0019] [00019] Any of the methods, devices and systems described herein can be used with a wide variety of elevator installations and / or with a wide variety of structures. As used here, the terms "user", "users", "visitor" or "visitors" can refer to humans, animals and / or machines. As used herein, a "visitor" is the same as a "user", unless explicitly stated otherwise.
    [0020] [00020] FIG. 1 shows a plan view of a block diagram of an exemplary configuration for the use of at least some modalities of the disclosed technologies. Area 110 is at least partially accessible to visitor 120 (possibly including multiple visitors). Visitor 120 may or may not be familiar with area 110 and its surroundings. Area 110 may be within or near a building or other structure. For example, in various modalities, area 110 may be in the concierge in a building or garage, in an underground area or structure, or in an external entrance area. In some cases, visitor 120 needs authorization to enter area 110.
    [0021] [00021] In various modalities, area 110 provides access to one or more elevators, escalators, stairs, corridors, storage areas and / or doors, which can allow the visitor 120 to reach one or more other areas. For example, in the configuration of FIG. 1, area 110 offers possible access to elevator A, elevator B and door A. In this example, the installation of an elevator 150 comprises elevators A and B. Area 110 comprises one or more location tags 130, 132, modalities of which are described in more detail below. Generally, tags 130, 132 can be read by a mobile device 140 used by visitor 120.
    [0022] [00022] FIG. 2 shows a block diagram of an exemplary embodiment of a system 200 to guide one or more visitors. A mobile device 240 is used by one or more of the visitors. Generally, mobile device 240 comprises a portable electronic device configurable to run one or more software programs, including software programs that cause mobile device 240 to perform one or more of the method actions described herein. Examples of mobile device 240 include portable computers, smartphones, cell phones, tablets, portable computers, and PDAs. Mobile device 240 can read information from one or more location tags 230. location tag 230 is located in an area (for example , area 110) and can be positioned on, for example, walls, floors, ceilings, signs and / or pieces of furniture. Generally encoded in location tag 230 is location information that can be associated with a physical location at or near the actual physical location of location tag 230.
    [0023] [00023] In various embodiments, the location tag 230 comprises a radio tag 232 (for example, a radio frequency identification tag (RFID)), which stores at least a portion of the location information. The location information can be read from the radio tag 232 using one or more wireless communication technologies. For example, in various modalities, near field communication (NFC) technology or Bluetooth technology can be used to read information from the radio tag 232. In at least some modalities, the mobile device 240 is configured to run one or more applications software as a result of reading the radio tag 232, including applications that cause the device to perform one or more of the method actions described here.
    [0024] [00024] In other embodiments, the location tag 230 comprises an optical tag 234. The optical tag 234 stores at least part of the location information, which is encoded in a machine-readable optical representation. For example, optical tag 234 may comprise a one-dimensional bar code and / or a two-dimensional code (for example, a QR code, a data matrix code, and / or another code).
    [0025] [00025] In some cases, a location tag 230 includes both a radio tag 232 and an optical tag 234, which potentially allow the mobile device 240 to read location information from location tag 230 in one or both formats. The radio tag 232 and the optical tag 234 can be mounted on a surface close to each other, or partially overlapping each other (for example, partially overlapping or totally overlapping).
    [0026] [00026] System 200 further comprises a server 210, which comprises a computer programmed to perform one or more actions of the method described herein. The server 210 receives information from the mobile device 240 through a network 220. In several modalities, the network 220 can use wired and / or wireless connections with the mobile device 240 and the server 210. In some modalities, the server 210 connected connected to the network 220 via a transceiver 270. The transceiver comprises, for example, a radio system configured to transmit and receive information. In particular embodiments, the network 220 comprises a wireless network (for example, without LAN, without the Metropolitan Area Network, mobile device networks), a wired network (for example, LAN), and / or the internet. In some cases, server 210 is coupled to an elevator control system 250 (for example, a destination call control system) and / or one or more authorization systems (not shown). In some embodiments, server 210 and control system 250 are located in the same building as location tag 230. In other embodiments, server 210 and / or control system 250 are in one or more other locations. 210 has access to routing information 260, which can be stored locally and / or remotely from the server 210. Routing information 260 describes, for example, building layouts, possible destinations, transit conditions and other information that may be useful for guide a user to a particular location.
    [0027] [00027] FIG. 3 shows a block diagram of an exemplary embodiment of a method 300 for providing guidance information to the visitor. (Method 300 is discussed here in the context of the configuration shown in FIG. 1, although its application is not limited to that particular configuration.) In a method action 310, a visitor 120 uses a mobile device 140 to read location information of one or more tags 130, 132. In a method action 320, visitor 120 selects one or more destinations, using the mobile device 140. Destinations can include places in or near a building that can be accessed (directly or indirectly) ) of area 110.
    [0028] [00028] FIG. 4A shows a block diagram of an exemplary modality of a 440 mobile device (for example, a smartphone) showing a user interface 450 that can be used to perform the action of method 320. In this modality, the possible destinations are shown in a or more buttons 452, 454, 456, 458. (Other user interfaces can also be used). If visitor 120 wants to go to the restaurant, for example, the visitor can indicate this by selecting button 452. In some modalities, multiple destinations can be selected. Generally, the list of possible destinations will vary from location to location. In some cases, the information of possible destinations is received by the mobile device via a 440 network (for example, the network 220) after the device 440 reads the location information in method action 310. In other cases, the information about possible destinations are preloaded on the 440 mobile device.
    [0029] [00029] Returning to FIG. 3, the mobile device 140 receives direction information over a network connection in a method action 330. The direction information can comprise, for example, an assignment to an elevator or other device. FIG. 4B shows a block diagram of an exemplary mobile device embodiment 440 showing an elevator assignment 460 "Please enter elevator B." The direction information may also comprise, for example, a direction and / or distance describing how visitor 120 is to move. In other modalities, the direction information comprises an estimated time of arrival for the elevator. FIG. 4C shows a block diagram of an exemplary mobile device 440 displaying direction information 462, 120 instructing the visitor to "turn left and walk 50 meters." Other modalities provide at least a portion of the direction information of one or more audio signals (for example, speech). In other modalities, the direction information comprises one or more instructions for entering a door, corridor, escalators and / or other area.
    [0030] [00030] FIG. 5 shows a block diagram of an exemplary embodiment of a method 500 for providing orientation information to the visitor. (Method 500 is discussed here in the context of the configuration shown in FIG. 1, and in the context of system 200 in FIG. 2, although its application is not limited to those particular modalities.) In an action of Method 510, the location 230 is read using mobile device 240 to obtain location information. In a method action 520, mobile device 240 sends location information to server 210 over network 220. This can be done, for example, using an internet data connection accessible by mobile device 240. In an action from method 530, mobile device 240 receives data describing one or more possible destinations for visitor 120. In some embodiments, possible destination data can be received from server 210 over network 220. In other embodiments, possible destination data is retrieved from one or more computer-readable storage media accessible by the mobile device 240. In a method action 540, data for one or more selected destinations is sent to server 210 over network 220. In a method action 550 , the visitor orientation information is received by the mobile device 240 from the server 210 through the network 220.
    [0031] [00031] FIG. 6 shows a block diagram of an exemplary embodiment of a method 600 for providing guidance information to the visitor. (Method 600 is discussed here in the system context 200 of FIG. 2, although its application is not limited to that particular modality.) In a method action 610, the location information is received by the server 210 of the mobile device 240 via from network 220. Location information was digitized from one or more location tags 230 by mobile device 240. In a method action 620, server 210 receives information about one or more selected destinations from mobile device 240 over the network 220. In a method action 630, server 210 sends visitor guidance information to mobile device 240 over network 220. Visitor guidance information is based, at least in part, on departure location information and / or information about the one or more selected destinations. It can also be based, at least in part, on routing information 260.
    [0032] [00032] FIG. 7 shows a block diagram of an exemplary embodiment of a method 700 for providing guidance information to the visitor. (Method 700 is discussed here in the context of system 200 of FIG. 2, although its application is not limited to that particular modality). In a method action 710, server 210 receives a user ID from mobile device 240. User ID identifies mobile device 240 to server 210. Server 210 also receives location information from mobile device 240. Information from location was scanned from one or more location tags 230 by the mobile device 240.
    [0033] [00033] In some embodiments, server 210 authenticates the visitor (for example, server 210 authenticates the visitor's mobile device 240) in a 720 method action. Authentication can be based, at least in part, on a digital certificate , password and / or other information received by server 210 from mobile device 240. If authentication shows that mobile device 240 is not authorized to interact with server 210, then the server rejects one or more requests from mobile device 240. If the authentication shows that mobile device 240 is authorized to interact with server 210, then server 210 sends data referring to one or more possible destinations to mobile device 240 in an act of method 730. server 210 then receives information over one or more selected mobile device visitor destinations 240.
    [0034] [00034] In a 750 method action, the server 210 determines the orientation information for the visitor. Visitor guidance information can be determined based, at least in part, on location information and on one or more selected destinations. In other modalities, the guidance information is determined, in part, according to a user profile that is associated with the user's identification. For example, the user ID can be associated with one or more passengers who have special needs to be accommodated by the guidance information, such as a VIP passenger or a passenger with a physical or mental disability. The guidance information can include an elevator assignment to a destination call control system. The elevator assignment can be generated with the help of the elevator control system 250. In particular embodiments, the characteristics of one or more known elevator destination call control technologies can be used with the elevator assignment portion of the elevator information. guidance.
    [0035] [00035] As described above, guidance information can also comprise direction information and / or distance information.
    [0036] [00036] In an action of method 760, the server 210 sends the orientation information to the visitor to the mobile device 240.
    [0037] [00037] FIG. 8 shows a graph depicting an exemplary signal exchange between the mobile device 240, the server 210 and the elevator control system 250. A signal 810 for location information is passed from the mobile device 240 to the server 210. A signal 820 for possible destination data it is passed from server 210 to mobile device 240. A signal 830, which indicates one or more selected destinations, is passed from mobile device 240 to server 210. Another signal 840 describing, at least partially, a or more selected destinations are passed from server 210 to elevator control system 250. In response, the elevator control system sends server 210 a signal 850, indicating an elevator assignment. The server 210 then sends a signal 860 to the mobile device 240 describing the visitor orientation information.
    [0038] [00038] A non-limiting example scenario, employing one or more modalities of the described technologies, can be described with respect to FIG. 1. A visitor 120 arrives at area 110 (in this scenario, a lobby), and using a mobile device 140 (a mobile phone, in this particular example), digitizes an optical code on tag 130, which is mounted on a wall . To scan the code, visitor 120 uses a special software application running on device 140. Through a wireless Internet connection, device 140 passes a user ID (stored on device 140), and location information ( read from tag 130) to a server (similar to server 210), which in this example is at a remote location. The server checks whether device 140 is authorized to receive information through the server. The server then sends a list of possible destinations to device 140. After device 140 receives the list of possible destinations and displays them to visitor 120, visitor 120 uses device 140 to select the "Cinema" destination. Device 140 transmits that destination to the server.
    [0039] [00039] Working with an elevator control system (similar to elevator control system 250), which is located in the same building as area 110, the server determines an elevator call assignment for visitor 120. In this case, the server recognizes that visitor 120 has scanned tag 130 (instead of tag 132), which is on the side of the area closest to elevator 110 A. As a result, the server and the elevator control system generate an assignment of call to elevator A (instead of elevator B) for visitor 120. The elevator server and / or control system also determines when the elevator should reach area 110. This determination is based on a known distance between the location of tag 130 and the entrance to elevator A and at an average speed of path. The call assignment is transmitted to device 140 and displayed to visitor 120.
    [0040] [00040] After the user enters elevator A, additional guidance information is sent to device 140 to assist the visitor in reaching the selected destination. For example, additional guidance information may appear on the screen of device 140 and instruct visitor 120 to "go 10 meters to the left after exiting the elevator".
    [0041] [00041] Thus, the visitor in this example scenario is able to easily receive personalized directions to find his way in an unknown place. Therefore, the visitor is more likely to reach a given destination easily and quickly. The server can also improve traffic flow in the building, guiding visitors along selected routes.
    [0042] [00042] FIG. 9 shows a block diagram of an exemplary embodiment of a mobile device 900 that can be used with one or more technologies disclosed herein. The mobile device 900 comprises components such as a 910 processor. The 910 processor is coupled to a 920 memory, which comprises one or more computer-readable storage media, storing at least 930 software instructions. When executed by the 910 processor , software instructions 930 cause the 910 processor to perform one or more of the method actions disclosed herein. The software instructions 930 can be loaded onto the mobile device 900 via a connection to another electronic device (for example, a personal computer), via a connection to one or more computer-readable storage media (for example, via a data storage card) and / or via a network connection (for example, via the Internet or a private network).
    [0043] [00043] The mobile device 900 further comprises one or more input and / or output devices, such as a 970 monitor and a 980 speaker. A 990 transceiver allows the 900 device to send and receive information with one or more networks (e.g., wireless networks, wired networks). One or more networks can use several technologies, for example, wireless LAN, Bluetooth, UMTS, GSM, and / or others. The mobile device 900 also comprises one or more components for reading information (for example, for reading tags, such as tags 130, 132). For example, the mobile device 900 may comprise a camera 940, an NFC reader 950, and / or a barcode scanner 960.
    [0044] [00044] Various embodiments of the mobile device 900 may omit one or more of the components shown in FIG. 9 and / or include additional components, including one or more other examples of any of the above components.
    [0045] [00045] FIG. 10 shows a block diagram of an exemplary embodiment of a server 1000, which can be used with one or more technologies disclosed herein. The server includes one or more 1010 processors. The 1010 processor is coupled to a 1020 memory, which comprises one or more computer-readable storage media storing 1030 software instructions. When executed by the 1010 processor, the 1030 software instructions do the following: processor 1010 perform one or more of the actions of the method disclosed here. Other embodiments of the server 1000 may comprise one or more additional components.
    [0046] [00046] Any of the modalities disclosed here can be used with an authentication structure for mobile devices. For example, in the context of system 200 of FIG. 2, server 210 (or another component) can verify that mobile device 240 is authorized to interact with server 210. Authentication can be performed according to different protocols. For example, authentication of mobile device 240 can be performed according to the X.509 standard. Authentication can employ a signed certificate of identification.
    [0047] [00047] Having illustrated and described the principles of the disclosed technologies, it will be evident to those skilled in the art that the disclosed modalities can be modified in the provision and details, without departing from these principles. It should be understood that aspects described in relation to one or more modalities are also intended to be used with one or more other modalities described herein, unless explicitly mentioned otherwise. In view of the many possible modalities to which the principles of the disclosed technologies can be applied, it must be recognized that the illustrated modalities are only examples of the technologies and should not be taken to limit the scope of the invention.
    权利要求:
    Claims (15)
    [0001]
    Elevator installation user guidance method (150), characterized by the fact that it comprises the steps of, - receiving location information from a portable electronic device (140) in an area (110) served by an elevator installation, the location information being based, at least in part, on the data read by the portable electronic device (140) from an optical code (234) or a radio tag (232) located in the area served by the installation of the elevator (150); - receiving one or more destinations from the user of the portable electronic device (140); and - transmission of user guidance information to the portable electronic device (140), user guidance information based, at least in part, on location information and on one or more user destinations received.
    [0002]
    User guidance method, according to claim 1, characterized by the fact that at least part of the user guidance information is provided by an elevator control system (250).
    [0003]
    User orientation method, according to any of the preceding claims, characterized by the fact that it still comprises the authentication of the portable electronic device (140).
    [0004]
    User orientation method, according to any of the preceding claims, characterized by the fact that it still comprises the configuration of an elevator car arrival time based, at least in part, on the location information.
    [0005]
    User orientation method, according to any of the preceding claims, characterized by the fact that it still comprises the transmission of possible destination information to the portable electronic device (140), one or more destinations received being selected from one or more more destinations described in the possible destination information.
    [0006]
    User orientation method, according to any of the preceding claims, characterized by the fact that transmission and reception occur via the internet (220).
    [0007]
    User guidance method, according to any of the preceding claims, characterized by the fact that the user guidance information comprises a direction of movement for a user.
    [0008]
    User orientation method, according to any of the preceding claims, characterized by the fact that the location information is based, at least in part, on data read from the optical code (234).
    [0009]
    User orientation method according to any one of claims 1 to 7, characterized by the fact that the location information is based, at least in part, on data read from the radio tag (232).
    [0010]
    Elevator installation (150), characterized by the fact that it comprises, - a location information tag (230) comprising an optical code (234) or a radio tag (232), the location information tag (230) being positioned in an area (110) served by the elevator installation (150 ); - an elevator control system (250); and - a server (210) coupled to the elevator control system (250), the server (210) being configured to execute a method, comprising the steps of, - receiving the departure location information from a portable electronic device (140) in the area (110) served by the elevator installation (150), the departure location information being based, at least in part, on data read from the location information tag (230) by the portable electronic device (140), - receiving one or more user destinations from the portable electronic device (140); and - transmission of guidance information to the portable electronic device (140), the guidance information being based, at least in part, on the starting location information and on one or more destinations of the user.
    [0011]
    Elevator installation (150) according to claim 10, characterized by the fact that the area (110) served by the elevator installation (150) comprises a space (110), the location information tag (230) being located in space (110), the location information tag (230) being one of a plurality of location information tags (230) located in space (110).
    [0012]
    Elevator installation (150) according to either of claims 10 or 11, characterized in that the user guidance information comprises an elevator assignment.
    [0013]
    Elevator installation (150) according to claim 12, characterized in that the elevator assignment is based, at least in part, on a user identification (120) of the portable electronic device (140).
    [0014]
    Elevator installation (150), according to any one of claims 10 to 13, characterized by the fact that it still comprises a means of transmitting reception (270) for sending a first set of data to the portable electronic device (140) and receiving a second set of data from the portable electronic device (140).
    [0015]
    Computer-readable storage media (1020), having encoded instructions (1030) in them, which, when executed by a processor (1010), make the processor perform a method, the method characterized by the fact that it comprises, - receiving departure location information from a portable electronic device (140) in an area (110) served by an elevator installation (150), the departure location information being based at least in part on data read by the electronic device portable (140) of a location information tag (130, 132) in the area (110); - receiving an indication of one or more user destinations of the portable electronic device (140); and - transmission of guidance information to the portable electronic device (140), the guidance information being based, at least in part, on the starting location information and on one or more destinations of the user.
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    同族专利:
    公开号 | 公开日
    KR20140042773A|2014-04-07|
    US9580272B2|2017-02-28|
    CA2820442A1|2012-10-04|
    AU2012234409B2|2017-08-03|
    MY162239A|2017-05-31|
    ES2534217T3|2015-04-20|
    US20140231184A1|2014-08-21|
    ZA201305113B|2014-09-25|
    SG193227A1|2013-10-30|
    EP2691331B1|2014-12-31|
    US20120253658A1|2012-10-04|
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    KR102061916B1|2020-02-11|
    CN103476694A|2013-12-25|
    US8744754B2|2014-06-03|
    CN103476694B|2016-09-28|
    WO2012130729A1|2012-10-04|
    BR112013017984A2|2020-10-27|
    PL2691331T3|2015-06-30|
    AU2012234409A1|2013-06-20|
    HK1191921A1|2014-08-08|
    CA2820442C|2018-01-16|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    JP3028876B2|1992-02-15|2000-04-04|株式会社日立ビルシステム|Elevator remote monitoring device|
    JP3117845B2|1993-07-21|2000-12-18|株式会社東芝|Elevator information display system|
    US5842145A|1996-07-08|1998-11-24|Zimmer; John S.|Apparatus for providing individualized maps to pedestrians|
    US5959575A|1997-11-04|1999-09-28|Nortrhop Grumman Corporation|Interior GPS navigation|
    US6014090A|1997-12-22|2000-01-11|At&T Corp.|Method and apparatus for delivering local information to travelers|
    US6109396A|1998-11-09|2000-08-29|Otis Elevator Company|Remote elevator call placement with provisional call verification|
    FI982827A0|1998-12-30|1998-12-30|Kone Corp|Display and call arrangements for a passenger transport device and method for routing a user into a system comprising the passenger transport device|
    GB2346697A|1999-01-28|2000-08-16|Motorola Gmbh|Travel assistance method and device|
    MXPA02010709A|2000-05-01|2003-03-10|Inventio Ag|Method for controlling an elevator.|
    JP2002183878A|2000-12-15|2002-06-28|Toshiba Corp|Road guide system for pedestrian, road guide service method for pedestrian, road guide data collection device, and road guide data collection method|
    FI112067B|2001-02-22|2003-10-31|Kone Corp|Procedures and systems using three-dimensional position data for passenger traffic|
    DE60141305D1|2001-12-20|2010-03-25|Mitsubishi Electric Corp|LIFT OPERATION DEVICE|
    US20040010368A1|2002-07-10|2004-01-15|Logan Scott|Assisted GPS signal detection and processing system for indoor location determination|
    GB0229693D0|2002-12-19|2003-01-29|Koninkl Philips Electronics Nv|Location determination method and system|
    CN100507444C|2003-05-12|2009-07-01|诺基亚公司|Navigation tags|
    AU2003259775A1|2003-08-11|2005-03-10|Otis Elevator Company|Correlating elevators destination floors with elevators serving those floors by means of color|
    JP2005280906A|2004-03-29|2005-10-13|Toshiba Elevator Co Ltd|Portable terminal unit and elevator system|
    JP4541741B2|2004-03-29|2010-09-08|東芝エレベータ株式会社|Elevator system|
    WO2005100222A1|2004-04-07|2005-10-27|Mitsubishi Denki Kabushiki Kaisha|Elevator call registration system|
    US7712586B2|2004-05-26|2010-05-11|Otis Elevator Company|Passenger guiding system for a passenger transportation system|
    FI115521B|2004-06-28|2005-05-31|Kone Corp|Method for wireless input of call in lift, involves transmitting destination floor detail selected among received floor details, by calling person mobile phone, to control system of lift|
    US7263375B2|2004-12-21|2007-08-28|Lockheed Martin Corporation|Personal navigation assistant system and apparatus|
    FI20050130A0|2005-02-04|2005-02-04|Kone Corp|Elevator system|
    KR20060094176A|2005-02-23|2006-08-29|삼성전자주식회사|Method, system, and portable device for gallery guide using guide tour with stored guide data and work of art data|
    FI117009B|2005-03-08|2006-05-15|Kone Corp|Guidance system for multi-route elevator system, has guiding devices connected via data transfer link to set of control units controlling elevator system, where units comprises unit for controlling sub-assemblies|
    KR100704777B1|2005-06-09|2007-04-09|주식회사 유비스티|Method for providing location-based information using wireless tag and terminal therefor|
    ES2534035T3|2005-09-30|2015-04-16|Inventio Ag|Elevator installation for the transport of elevator users in a built-up area|
    WO2008036325A2|2006-09-20|2008-03-27|Regents Of The University Of Minnesota|Indoor navigation system and method|
    US7693757B2|2006-09-21|2010-04-06|International Business Machines Corporation|System and method for performing inventory using a mobile inventory robot|
    US7600679B2|2007-07-11|2009-10-13|Honeywell International Inc.|Automatic guidance of visitor in new facility through access control system integration with LCD display|
    WO2009090207A1|2008-01-17|2009-07-23|Inventio Ag|Elevator installation, method for operating such an elevator installation and method for retrofitting an existing elevator installation to form such an elevator installation|
    WO2009132696A1|2008-04-29|2009-11-05|Inventio Ag|Method for guiding passengers in a building|
    US7940171B2|2008-06-10|2011-05-10|Google Inc.|Machine-readable representation of geographic information|
    DE112009002258B4|2008-09-19|2019-08-14|Mitsubishi Electric Corporation|Elevator group management system|
    CN102471015B|2009-09-02|2014-11-05|三菱电机株式会社|Elevator system|
    JP2013516372A|2010-01-08|2013-05-13|オーチスエレベータカンパニー|Wireless destination floor input of elevator vehicle allocation device|
    US8880200B2|2012-05-04|2014-11-04|Inventio Ag|Associating user preferences with elevator activity|
    JP6007984B2|2012-07-25|2016-10-19|三菱電機株式会社|Elevator landing equipment|
    EP2704105A1|2012-08-31|2014-03-05|Inventio AG|Guiding users in an area|
    FI123998B|2012-12-18|2014-01-31|Kone Corp|Elevator system|
    WO2015015049A1|2013-07-29|2015-02-05|Kone Corporation|Method and system for generating destination calls for an elevator system|WO2014028004A1|2012-08-14|2014-02-20|Otis Elevator Company|Security system for elevator|
    FI124013B|2012-11-14|2014-01-31|Kone Corp|Procedure, arrangement and lift system|
    CN104936878B|2013-01-30|2017-05-03|通力股份公司|Pre-allocation of an elevator call|
    EP2951114B1|2013-02-01|2017-08-23|KONE Corporation|An apparatus and a method for elevator allocation using a magnetic field map in an elevator system|
    US20140236475A1|2013-02-19|2014-08-21|Texas Instruments Incorporated|Methods and systems for navigation in indoor environments|
    WO2014194929A1|2013-06-03|2014-12-11|Kone Corporation|Transportation system|
    US10392222B2|2013-10-28|2019-08-27|Otis Elevator Company|Elevator remote destination entry based on altitude|
    EP3077318A4|2013-12-06|2017-07-05|Otis Elevator Company|Service request using wireless programmable device|
    CN105829223B|2013-12-17|2019-09-03|奥的斯电梯公司|Utilize the elevator controlling of mobile device|
    CN105960372A|2014-02-07|2016-09-21|奥的斯电梯公司|Smart watch for elevator use|
    CN105960373B|2014-02-20|2018-02-02|通力股份公司|The display information in elevator arrangement|
    CN106458502B|2014-06-03|2019-04-16|奥的斯电梯公司|The current location and next destination of elevator customer are automatically determined using mobile device technology|
    EP3164675B1|2014-07-04|2020-09-02|KONE Corporation|Allocation of facilities on a route|
    JP2016037366A|2014-08-08|2016-03-22|三菱電機株式会社|Call registration system for elevator|
    US9212924B1|2014-08-21|2015-12-15|Microsoft Technology Licensing, Llc|Multimode transportation transitions|
    AU2015343710A1|2014-11-03|2017-05-25|Otis Elevator Company|System and method of initiating elevator service by entering an elevator call|
    JP6398625B2|2014-11-07|2018-10-03|三菱電機株式会社|Elevator system|
    WO2016082875A1|2014-11-26|2016-06-02|Kone Corporation|Local navigation system|
    US10889463B2|2014-12-02|2021-01-12|Otis Elevator Company|Method and system for indoor wayfinding based on elevator information|
    EP3233693A1|2014-12-16|2017-10-25|Otis Elevator Company|System and method of initiating elevator service by entering an elevator call|
    US9896305B2|2015-05-07|2018-02-20|International Business Machines Corporation|Personalized elevator dispatch|
    CA2983081A1|2015-06-10|2016-12-15|Inventio Ag|Lift system with predictive call production|
    AU2016204744B2|2015-07-10|2018-02-01|Otis Elevator Company|Passenger conveyance way finding beacon system|
    KR20180039147A|2015-08-13|2018-04-17|인도어.닌자 오유|A mobile method and system for selectively allowing an elevator to be automatically treated to a destination identified by a tenant and identified by a tenant|
    EP3365630A1|2015-10-19|2018-08-29|KONE Corporation|Smartwatch and elevator and guide system|
    AU2016349714A1|2015-11-06|2018-06-21|Otis Elevator Company|System and method for initiating elevator service by entering an elevator call|
    CN108349688A|2015-11-06|2018-07-31|奥的斯电梯公司|Position elevator device|
    TW201724000A|2015-12-29|2017-07-01|鴻海精密工業股份有限公司|Automated guided elevator assistant system and guide method|
    JP6315150B2|2016-02-29|2018-04-25|フジテック株式会社|Information providing device, elevator group management system, and elevator system|
    CN106144806A|2016-08-23|2016-11-23|珠海市魅族科技有限公司|Elevator scheduling method and device|
    US9878875B1|2016-09-30|2018-01-30|Otis Elevator Company|Building selection in elevator system supporting mobile device calls|
    KR20180044078A|2016-10-21|2018-05-02|주식회사 엠에프에스코퍼레이션|Smart Elevator System|
    US10124989B2|2016-10-28|2018-11-13|Otis Elevator Complany|Elevator car arrival indication on a mobile device|
    US10294071B2|2016-10-28|2019-05-21|Otis Elevator Company|Elevator activity level management of mobile device access|
    US9998581B1|2017-01-13|2018-06-12|Otis Elevator Company|Communication system and method of communication in an elevator operating environment|
    US10486937B2|2017-03-31|2019-11-26|Otis Elevator Company|User management of door and elevator access control|
    US20180327214A1|2017-05-15|2018-11-15|Otis Elevator Company|Destination entry using building floor plan|
    US10640329B2|2017-06-05|2020-05-05|Otis Elevator Company|Reassignment of elevators for mobile device users|
    WO2019036452A1|2017-08-18|2019-02-21|Carrier Corporation|Method to notify a host the current position of a visitor|
    US10875742B2|2017-11-09|2020-12-29|Otis Elevator Company|Elevator service request using user device with filtered destination floor selection|
    EP3483104B1|2017-11-10|2021-09-01|Otis Elevator Company|Systems and methods for providing information regarding elevator systems|
    US10947085B2|2017-11-30|2021-03-16|Otis Elevator Company|Sequence triggering for automatic calls and multi-segment elevator trips|
    US10947086B2|2017-11-30|2021-03-16|Otis Elevator Company|Sequence triggering for automatic calls and multi segment elevator trips|
    JP6927867B2|2017-12-01|2021-09-01|株式会社日立製作所|Elevator system|
    CN110228735A|2018-03-06|2019-09-13|奥的斯电梯公司|The offline authentication of elevator service request and elevator service request|
    US10988345B2|2018-03-20|2021-04-27|Otis Elevator Company|Direct real-time travel indications for multi-segment trip|
    US11072515B2|2018-03-27|2021-07-27|Otis Elevator Company|Automated elevator maintenance mode initiation|
    EP3868138A1|2018-10-16|2021-08-25|KONE Corporation|Mobile device and systems for wireless people flow management in a building|
    US20200122966A1|2018-10-23|2020-04-23|Otis Elevator Company|Elevator system to direct passenger to tenant in building whether passenger is inside or outside building|
    US20200169844A1|2018-11-27|2020-05-28|Gogo Llc|Passenger location platform|
    EP3670413A1|2018-12-20|2020-06-24|Grzegorz Karol Dr. Spyra|Method for electronic elevator communication with mobile devices|
    KR102170947B1|2019-01-16|2020-10-28|현대엘리베이터주식회사|Dynamic qr code based elevator security system|
    WO2021224540A1|2020-05-07|2021-11-11|Kone Corporation|Method and system for generating an elevator call request|
    法律状态:
    2020-11-03| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|
    2021-01-12| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|
    2021-03-23| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 22/03/2012, OBSERVADAS AS CONDICOES LEGAIS. |
    优先权:
    申请号 | 申请日 | 专利标题
    EP11160164.7|2011-03-29|
    EP11160164|2011-03-29|
    PCT/EP2012/055117|WO2012130729A1|2011-03-29|2012-03-22|User guidance with mobile electronic devices|
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