WO2015161558A1 - Information transmission method, device and system for near field communication recognition chip - Google Patents

Abstract

Disclosed are an information transmission method, device and system for a near field communication recognition chip. The information transmission method for a near field communication recognition chip comprises: an NFC mobile terminal establishing a data connection with an NFC recognition chip and reading information in the NFC recognition chip; the NFC mobile terminal processing the read information; and the NFC mobile terminal transmitting the processed information to a server through a wireless network.

Description

 TECHNICAL FIELD The present invention relates to the field of communications, and in particular to a method, device, and system for transmitting information of a short-range communication identification chip. BACKGROUND OF THE INVENTION Near Field Communication (NFC) is a short-distance non-contact communication method that combines non-contact sensing and wireless connection technology to operate in the 13.56 Mhz band with a transmission distance of about 10 cm. The transmission speed is currently 106Kbit/s, 212Kbit/s or 424Kbit/s, which may increase to around 1Mb in the future. It is not only compliant with ISO18092, IS02148K ECMA (340, 352 and 356) and P ETSI TS 102190 standards, but is also compatible with non-contact smart card infrastructures that are widely used with the IS014443A, B standard. Such as Philips' MIFARE technology and Sony's Felica technology. Compared with other short-range wireless communication technologies, FC is safer and has shorter response time, so it is very suitable as an e-wallet technology in a wireless transmission environment, and the transaction is fast and secure. At present, FC mainly has the following three working modes: 1. Card mode, used for contactless mobile payment. For applications such as shopping malls and transportation, users only need to put the mobile phone close to the card reader, and then the user only needs to enter the password to confirm the transaction or You can receive the transaction directly. For example, access control, tickets and tickets. In this way, the card is powered by the RF field of the contactless reader, even if the phone is dead.

2, peer-to-peer communication mode, that is, to achieve wireless data exchange, link two FC-enabled devices, can achieve data point-to-point transmission, for example, download music, exchange pictures or synchronize device address book. Therefore, through FC, multiple devices such as digital cameras, PDAs, computers, and mobile phones can wirelessly coordinate and exchange data or services.

3, the card reader mode, that is, as a contactless card reader, such as reading information from the poster or exhibition information electronic tag. Since FC is compatible with existing contactless smart card technology, more and more mobile terminals are equipped with FC modules, which can implement near field communication. For example, in the related art, an FC-based identification method is proposed, which is optimized for a traditional identification system, and the identification process thereof is as shown in FIG. First storing personal identification information corresponding to the FC mobile terminal information on the server (step S101), and then using the FC mobile terminal to replace the traditional user card, the identity identification device establishes a data connection with the FC mobile terminal, and passes the identity recognition device The FC module reads the FC mobile terminal information (step S102). The identity recognition device then uploads the read FC mobile terminal information to the server (step S103), and receives the personal identity information corresponding to the FC mobile terminal information fed back to implement identity recognition (step S104). In this way, the identity device needs to be connected to the network. Therefore, network cabling is required, and the cost is high. In addition, installation and debugging are also inconvenient. In view of the high cost of the identification device in the related art and the inconvenience of installation and debugging, an effective solution has not been proposed yet. SUMMARY OF THE INVENTION The present invention provides an information transmission method, apparatus, and system for an FC identification chip to solve at least the above problems, in view of the problems of high cost and inconvenient installation and debugging of the identification device in the related art. According to an aspect of the present invention, an information transmission method for a short-range communication FC identification chip is provided, including: establishing, by a FC mobile terminal, a data connection with an FC identification chip, reading information in the FC identification chip; The terminal processes the read information; the FC mobile terminal transmits the processed information to a server through a wireless network. Preferably, the information read by the FC mobile terminal comprises at least one of the following: location information, a service identifier, and a service address. Preferably, the FC mobile terminal transmits the processed information to the server through the wireless network, and the method includes: the FC mobile terminal transmitting the processed information and the identifier information of the FC mobile terminal to the wireless network to the server. Preferably, after the FC mobile terminal transmits the processed information and the identifier information of the FC mobile terminal to the server through the wireless network, the method further includes: the server transmitting information according to the FC mobile terminal And identifying the FC identification chip. Preferably, after the server identifies the FC identification chip, the method further includes: the server determining, according to information transmitted by the FC mobile terminal, a device control instruction to be executed; the server: the device Control instructions are transmitted to the FC mobile terminal; the FC mobile terminal communicates with the FC device, and the device control command is transmitted to the FC device. Preferably, after the server identifies the FC identification chip, the method further includes: the server determining, according to the information transmitted by the FC mobile terminal, a device control instruction that needs to be executed; The FC device sends the device control instruction. According to another aspect of the present invention, an information transmission apparatus for a short-range communication FC identification chip is provided, including: an FC communication module, configured to establish a data connection with an FC identification chip, and read information in the FC identification chip; The first information processing module is configured to process the read information; and the wireless communication module is configured to transmit the processed information to the server through the wireless network. Preferably, the method further includes: an identity information storage module, configured to store the identifier information of the FC mobile terminal; and the information sent by the wireless communication module to the server further includes the identifier information of the FC mobile terminal. Preferably, the wireless communication module is further configured to receive a device control instruction returned by the server; the FC communication module is further configured to send the device control instruction to the FC device. According to still another aspect of the present invention, an information transmission system for a short-range communication FC identification chip is provided, including: an FC identification chip, an FC mobile terminal, and a server, wherein the FC identification chip includes: an identification information storage module, and a setting Information for identifying an identification business scenario; the FC communication module is configured to communicate with the FC mobile terminal, and transmit information stored by the identification information storage module to the FC mobile terminal; the FC mobile terminal includes The information transmission device of the short-range communication FC identification chip is configured to read the information stored in the FC identification chip, process the information, and transmit the information to the server through a wireless network; the server The device includes: an information transmission module, configured to receive information transmitted by the FC mobile terminal over a wireless network; an identity information storage module, configured to store identity information of the FC mobile terminal and the FC identification chip; and a device information storage module, configured to be stored Information about the FC device; the information processing module, set to It said information received by the information transmitting module, the module storing information and identity information of the device information stored in the storage module, the identification chip FC. Preferably, the method further includes: an FC device; the information transmission module is further configured to send a device control instruction to the FC mobile terminal; the FC mobile terminal is further configured to transmit the device control instruction to the FC device. Preferably, the method further includes: an FC device; the information transmission module is further configured to send a device control instruction to the FC device. According to still another aspect of the present invention, a short-range communication FC mobile terminal including the above-described information communication apparatus for a short-range communication FC identification chip is provided. According to still another aspect of the present invention, a proximity communication FC identification chip is provided, comprising: an identification information storage module configured to store information required for an identity identification service scenario; and an FC communication module configured to communicate with the FC mobile terminal And transmitting, by the FC mobile terminal, the identification information to the server by transmitting the information stored by the identification information storage module to the FC mobile terminal. Through the invention, the FC mobile terminal functions as an identity recognition device of the FC identification chip, reads information in the FC identification chip, and transmits the information to the server through the wireless network, thereby eliminating the need for a network for identifying the identification device of the FC identification chip, thereby saving cost. Moreover, it is very convenient to install and debug the FC mobile terminal. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are set to illustrate,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, In the drawings: FIG. 1 is a flow chart of an identification method according to the related art; FIG. 2 is a schematic diagram showing the structure of an information transmission system of an FC identification chip according to an embodiment of the present invention; FIG. 3 is an FC identification according to an embodiment of the present invention. FIG. 4 is a flowchart of a system for transmitting an information according to an embodiment of the present invention; FIG. 5 is a schematic structural diagram of a system according to Embodiment 1; FIG. 6 is a flowchart of identity recognition of Embodiment 1. FIG. FIG. 8 is a schematic diagram of a system structure of the second embodiment; FIG. 9 is a schematic diagram of a system structure of the third embodiment; BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the embodiments in the present application and the features in the embodiments may be combined with each other without conflict. In the embodiment of the present invention, by establishing an identity recognition system based on the FC mobile terminal, a fixed FC identification chip is used instead of the traditional card reader device, and the FC mobile terminal is used as a card reader to read the identification chip information, and the FC mobile terminal is used. After processing, the chip information of the FC identification chip, or the chip information and the personal information of the FC mobile terminal are uploaded to the server using the data channel. The server makes corresponding records and business processing according to the content of the request. If necessary, the server may include device control instructions in the information fed back to the FC mobile terminal, or send control commands to the control device through other networks to drive the corresponding device to act and complete the service. 2 is a schematic structural diagram of an information transmission system of an FC identification chip according to an embodiment of the present invention. As shown in FIG. 2, the system mainly includes: an FC identification chip 20, an FC mobile terminal 22, and a server 24. As shown in FIG. 2, the FC identification chip 20 provided by the embodiment of the present invention may include: an identification information storage module 200 configured to store information required for an identity identification service scenario; and an FC communication module 202 configured to perform with the FC mobile terminal 22. The communication transmits the information stored in the identification information storage module 200 to the FC mobile terminal 22. The FC mobile terminal 22 provided by the embodiment of the present invention may include the information transmission device of the FC identification chip shown in FIG. 3, and is configured to read the information in the FC identification chip 20, and process the information, and then transmit the information to the wireless network. Server 24. As shown in FIG. 2, the server 24 provided by the embodiment of the present invention may include: an information transmission module 240 configured to receive information transmitted by the FC mobile terminal 22 over a wireless network; an identity information storage module 242 configured to store the FC mobile terminal 22 and The identity information of the FC identification chip 20; the device information storage module 244 is configured to store related information of the FC device; the second information processing module 246 is configured to receive the information according to the information transmission module 240, the identity information storage module 242, and The device information storage module 244 stores information to identify the FC chip 20. In an optional implementation of the embodiment of the present invention, the system may further include: an FC device; the information transmission module 240 is further configured to send a device control instruction to the FC mobile terminal 22; the FC mobile terminal 22 is further configured to control the device The instructions are transmitted to the FC device. In this embodiment, the device control instructions are transmitted using the wireless network of the FC mobile terminal. In another optional embodiment of the embodiment of the present invention, the information transmission module 240 is further configured to send a device control instruction to the FC device. In this embodiment, the server directly sends a device control command to the FC device. In this case, the FC device needs to be in the network. In the embodiment of the present invention, the FC identification chip does not need a power source, that is, it may be a passive chip. In the embodiment of the present invention, the FC mobile terminal 22 may be a user handheld device, and after downloading and installing the identity recognition client, data communication may be performed with the server 24. The identity mobile phone client (which can be implemented by the information transmission device of the FC identification chip shown in FIG. 3) is installed on the FC mobile terminal 22, and is responsible for responding to the interaction between the FC mobile terminal 22 and the FC identification chip 20, and performing the interaction with the FC identification chip 20. After authentication, the identification data is sent to the server 24 in real time or non-real time. The FC identification chip 20 can be installed at a location where identification is required. The chip contains information required for a specific identification service scenario, such as a geographic location, a unique service identifier, a service address, and the like. Since FC technology is compatible with a variety of traditional identification chips, the identification chip can be used with a variety of standards or technologies such as ISO18092, IS021481, ECMA (340, 352 and 356), ETSI TS 102190 and P IS014443A, B, and Philips' MIFARE technology. Sony's Felica technology. In particular, the identification chip can be connected to some devices to obtain dynamic information, or it can be a passive static chip. The server 24 provides services to the Internet, receives data requests from the FC mobile terminal 22, and performs recording and processing. The above system provided by the embodiment of the invention can save cost and simplify the installation and debugging process. FIG. 3 is an information transmission device of an FC identification chip according to an embodiment of the present invention. As shown in FIG. 3, the method may further include: an FC communication module 220 configured to establish a data connection with an FC identification chip, and read the FC identification chip. The first information processing module 222 is configured to process the read information; the wireless communication module 224 is configured to transmit the processed information to the server through the wireless network. In an optional implementation, the apparatus may further include: an identity information storage module configured to store the identifier information of the FC mobile terminal; and the information sent by the wireless communication module 224 to the server may further include the identifier information of the FC mobile terminal. This makes it possible to set the rights of different FC mobile terminal holders. In an optional embodiment, the wireless communication module 224 is further configured to receive a device control instruction returned by the server; the FC communication module 220 is further configured to send the device control instruction to the FC device. With this alternative embodiment, device control instructions can be transmitted over the wireless network, thereby simplifying network layout and increasing flexibility in FC device placement. According to an embodiment of the present invention, there is also provided an information transmission method of an FC identification chip, which may be implemented by the above apparatus and/or system. FIG. 4 is a flowchart of an information transmission method of an FC identification chip according to an embodiment of the present invention. As shown in FIG. 4, the method mainly includes the following steps (step S402 - step S406). Step S402, the FC mobile terminal establishes a data connection with the FC identification chip, and reads information in the FC identification chip. Optionally, the information read by the FC mobile terminal includes, but is not limited to, one of the following or any combination thereof: location information, a service identifier, and a service address. Step S404, the FC mobile terminal processes the read information. Step S406, the FC mobile terminal transmits the processed information to the server through the wireless network. Optionally, the FC mobile terminal may transmit the processed information and its identification information together to the server through the wireless network. Optionally, after the FC mobile terminal transmits the processed information and the identifier information of the FC mobile terminal to the server by using a wireless network, the server may perform information according to the information transmitted by the FC mobile terminal. The FC identification chip is used for identification. Optionally, after the server identifies the FC identifier chip, if the FC device is required to perform the task, the method further includes: determining, by the server, the device control instruction that needs to be executed according to the information transmitted by the FC mobile terminal. The server transmits the device control command to the FC mobile terminal; the FC mobile terminal communicates with the FC device, and sends the device control command to the FC device. For example, the server may determine the task to be executed and the device that performs the task according to the service identification code and the service address read from the FC chip uploaded by the FC mobile terminal, thereby issuing corresponding device control instructions. Alternatively, the server may determine, according to the location information read from the FC chip uploaded by the FC mobile terminal, what task the device at the location corresponding to the location information needs to perform, thereby determining the device control instruction. Alternatively, the server may send the device control command directly to the FC device in the network. Therefore, after the server identifies the FC identifier chip, the method further includes: the server transmitting according to the FC mobile terminal. The information determines a device control instruction that needs to be executed; the server sends the device control instruction to a corresponding FC device through a network. The technical solution provided by the embodiment of the invention can save cost and simplify the installation and debugging process. The technical solutions provided by the embodiments of the present invention are described below by using specific embodiments. Embodiment 1 FIG. 5 is a schematic structural diagram of a system in the embodiment, and FIG. 6 is a service flow diagram of the embodiment. The execution process of the service in this embodiment will be described below with reference to FIG. 5 and FIG. 6. As shown in FIG. 5, in this embodiment, the server includes an identity information storage module 242, a device information storage module 244, an information transmission module 240, and a second information processing module 246. The FC mobile terminal includes a wireless communication module 224 and an identity information storage module. 226. The FC communication module 220 and the first information processing module 222. The identification chip includes a short-range communication FC module 202 and an identification information storage module 200. The server information transmission module 240 and the FC mobile terminal wireless communication module 224 communicate through the mobile data network, and the FC communication module 220 of the FC mobile terminal communicates with the identification chip short-range communication module 202 via the 13.56 MHz wireless signal. As shown in FIG. 6, the service execution in this embodiment mainly includes the following steps S601 to S604. Step S601, storing service scene information in the identification chip in the identification chip, and storing identification chip related information on the server side; the purpose of this step is to initialize the identification chip. Step S602, storing FC mobile terminal holder personalization information in the FC mobile terminal, which is generally referred to as FC personalization, and the personal information includes a unique identification string of the FC mobile terminal. Step S603, the FC mobile terminal reads the identification chip information, and uploads the information to the server together with the personalized information. That is, the FC mobile terminal contacts and communicates with the identification chip in close proximity, and the FC mobile terminal reads the information in the identification chip in the read head mode, performs parsing and processing, and uploads the partial personalized information stored in step S602 to the server. Step S604, the server records and processes the identification chip information and the mobile terminal personal information uploaded by the FC terminal. According to the specific service scenario, the server performs specific subsequent operations, such as recording the current interaction between the FC mobile terminal and the identification chip, and issuing device action instructions. In the second embodiment, after the server records and processes the identification chip information and the FC mobile terminal personal information uploaded by the FC mobile terminal, the server sends a control instruction indicating the action of the device through the FC mobile terminal. FIG. 7 is a schematic structural diagram of a system in the embodiment, and FIG. 8 is a service flowchart of the embodiment. The execution process of the service in this embodiment will be described below with reference to FIG. 7 and FIG. 8. As shown in FIG. 7, the server includes an identity information storage module 242, a device information storage module 244, an information transmission module 240, and a second information processing module 246. The FC mobile terminal includes a wireless communication module 224 and identity information. The storage module 226, the NFC communication module 220, and the first information processing module 222; the identification chip includes a short-range communication FC module 202 and an identification information storage module 200; and the FC-based control device includes an FC communication module 260 and an action execution module 262. The server information transmission module 240 communicates with the FC mobile terminal wireless communication module 224 through the mobile data network, and the FC communication module 220 of the FC mobile terminal communicates with the identification chip short-range communication module 202 through the 13.56 MHz wireless signal, and the FC communication module of the FC mobile terminal The FC communication module 260 of the FC-based control device performs FC communication. The identification chip and the FC-based control device can be the same device as needed. The device includes an FC communication module, an identification information storage module, and an action execution module. The functions of the above identification chip and control device are completed. As shown in FIG. 8, this embodiment adds step S805 and step S806 with respect to the first embodiment. As shown in FIG. 8, the service flow in this embodiment mainly includes steps S801 to S806. Step S801, storing service scene information in the identification chip in the identification chip, and storing identification chip related information on the server side; the purpose of this step is to initialize the identification chip. Step S802, storing FC mobile terminal holder personalization information in the FC mobile terminal, which is generally referred to as FC personalization, and the personal information includes a unique identification string of the FC mobile terminal. Step S803, the FC mobile terminal reads the identification chip information, and uploads the information to the server together with the personalized information. That is, the FC mobile terminal contacts and communicates with the identification chip in close proximity, and the FC mobile terminal reads the information in the identification chip in the read head mode, performs parsing and processing, and uploads the partial personalized information stored in step S802 to the server. Step S804, the server records and processes the identification chip information and the mobile terminal personal information uploaded by the FC terminal. Step S805, the server feeds back the device control processing instruction to the FC mobile terminal. Step S806, the FC mobile terminal communicates with the FC device, sends a device control command, and the device performs an action to complete the process of identity recognition and corresponding tasks. Embodiment 3 FIG. 9 is a schematic structural diagram of a system in the embodiment, and FIG. 10 is a service flow diagram of the embodiment. The execution process of the service in this embodiment will be described below with reference to FIG. 9 and FIG. As shown in FIG. 9, in this embodiment, the server includes an identity information storage module 242, a device information storage module 244, an information transmission module 240, and a second information processing module 246. The FC mobile terminal includes a wireless communication module. Block 224, identity information storage module 226, FC communication module 220, first information processing module 222; the identification chip includes a short-range communication FC module 202, an identification information storage module 200; the network-based control device 28 includes an information transmission module 280, an action Execution module 282. The server information transmission module 240 and the FC mobile terminal wireless communication module 224 communicate through the mobile data network, and the FC communication module 220 of the FC mobile terminal communicates with the identification chip short-range communication module 202 via 13.56 MHz wireless signal, the server and the network-based control device information. The transmission module 280 performs communication. The identification chip and the network-based control device can be the same device as needed. As shown in FIG. 10, step S1005 and step S1006 are added with respect to the first embodiment. As shown in FIG. 10, the service flow of this embodiment mainly includes the following steps S1001 to S1006. Step S1001: Store the service scene information in the identification chip in the identification chip, and store the identification chip related information on the server. The purpose of this step is to initialize the identification chip. Step S1002: The FC mobile terminal stores the personal information of the FC mobile terminal holder. The step is generally referred to as FC personalization, and the personal information includes a unique identification string of the FC mobile terminal. In step S1003, the FC mobile terminal reads the identification chip information, and uploads it to the server together with the personalized information. That is, the FC mobile terminal contacts and communicates with the identification chip in close proximity, and the FC mobile terminal reads the information in the identification chip in the read head mode, and after parsing and processing, the partial personalized information stored in step S1002 is uploaded to the server. Step S1004: The server records and processes the identification chip information and the mobile terminal personal information uploaded by the FC terminal. Step S1005, the server sends a processing instruction to the network-based control device. Step S1006: The network-based control device executes and performs an appropriate action according to the processing instruction to complete the process of identity recognition and corresponding tasks. Through the above technical solutions provided by the embodiments of the present invention, typical identity authentication applications such as general attendance, access control, patrol, electronic tickets, electronic control, water control, ladder control, and interactive advertisement can be quickly realized. In summary, in the embodiment of the present invention, (1) the cost of the FC identification chip is low, no network connection is needed, and even a power supply is not required. Compared with the conventional identification device, the production cost is almost negligible, and Network cabling is required, and installation and debugging are simple and convenient; (2) The business logic of the traditional identity identification device is handled by the mobile client and the service server, and the software update of the mobile client and the service server is simple and fast, and the direct saving The time and cost incurred by upgrading the identification device one by one; (3) Using the communication network of the FC mobile terminal to transmit data, the data channel is safe, real-time, and highly reliable. Obviously, those skilled in the art should understand that the above modules or steps of the present invention can be implemented by a general-purpose computing device, which can be concentrated on a single computing device or distributed over a network composed of multiple computing devices. Alternatively, they may be implemented by program code executable by the computing device, such that they may be stored in the storage device by the computing device and, in some cases, may be different from the order herein. The steps shown or described are performed, or they are separately fabricated into individual integrated circuit modules, or a plurality of modules or steps are fabricated as a single integrated circuit module. Thus, the invention is not limited to any specific combination of hardware and software. The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes can be made to the present invention. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and scope of the present invention are intended to be included within the scope of the present invention. Industrial Applicability In the embodiment of the present invention, the FC mobile terminal functions as an identity recognition device of the FC identification chip, reads information in the FC identification chip, and transmits the information to the server through the wireless network, thereby eliminating the need for an identification device for the FC identification chip. The network saves costs, and it is very convenient to install and debug the FC mobile terminal. Therefore, it has industrial applicability

Claims

Claims

A short-distance communication method for transmitting information of an FC identification chip, comprising: establishing a data connection between the FC mobile terminal and the FC identification chip, and reading information in the FC identification chip;

 The FC mobile terminal processes the read information; the FC mobile terminal transmits the processed information to a server through a wireless network.

2. The method of claim 1, wherein the information read by the FC mobile terminal comprises at least one of: location information, a service identification code, and a service address.

3. The method according to claim 1, wherein the FC mobile terminal transmits the processed information to a server through a wireless network, comprising: the FC mobile terminal to process the processed information and the FC The identification information of the mobile terminal is transmitted to the server through the wireless network.

The method according to any one of claims 1 to 3, wherein the FC mobile terminal transmits the processed information and the identification information of the FC mobile terminal to a server through a wireless network, The method also includes:

 The server identifies the FC identification chip according to the information transmitted by the FC mobile terminal.

The method of claim 4, wherein after the server identifies the FC identification chip, the method further includes:

 Determining, by the server, the device control instruction that needs to be executed according to the information transmitted by the FC mobile terminal;

 The server transmits the device control command to the FC mobile terminal; the FC mobile terminal communicates with the FC device, and sends the device control command to the FC device.

The method according to claim 4, wherein after the server identifies the FC identification chip, the method further includes:

Determining, by the server, the device control instruction that needs to be executed according to the information transmitted by the FC mobile terminal; The server sends the device control instruction to a corresponding FC device through a network. An information transmission device for a short-range communication FC identification chip includes:

 The FC communication module is configured to establish a data connection with the FC identification chip to read information in the FC identification chip; the first information processing module is configured to process the read information;

 The wireless communication module is configured to transmit the processed information to the server through the wireless network. The device according to claim 7, further comprising: an identity information storage module, configured to store identification information of the FC mobile terminal; and the information sent by the wireless communication module to the server further includes identification information of the FC mobile terminal. The apparatus according to claim 7, wherein the wireless communication module is further configured to receive a device control instruction returned by the server; the FC communication module is further configured to send the device control instruction to the FC device. An information transmission system for a short-range communication FC identification chip, comprising: an FC identification chip, a FC mobile terminal, and a server, wherein

 The FC identification chip includes: an identification information storage module, configured to store information required for an identity identification service scenario;

 The FC communication module is configured to communicate with the FC mobile terminal, and transmit information stored by the identification information storage module to the FC mobile terminal;

 The FC mobile terminal includes the apparatus according to any one of claims 7 to 9, configured to read the information stored in the FC identification chip, and process the information, and transmit the information to the wireless network to The server;

 The server includes:

 The information transmission module is configured to receive the information that is transmitted by the FC mobile terminal through the wireless network; the identity information storage module is configured to store the identity information of the FC mobile terminal and the FC identification chip;

a device information storage module, configured to store related information of the FC device; The information processing module is configured to perform identity recognition on the FC chip according to the information received by the information transmission module, the identity information storage module, and the information stored by the device information storage module.

11. The system according to claim 10, further comprising: an FC device; the information transmission module is further configured to send a device control instruction to the FC mobile terminal; the FC mobile terminal is further configured to: Control instructions are transmitted to the FC device.

12. The system according to claim 10, further comprising: an FC device; the information transmission module further configured to send a device control instruction to the FC device.

A short-range communication FC mobile terminal comprising the apparatus of any one of claims 7 to 9.

14. A short-range communication FC identification chip, comprising: an identification information storage module, configured to store information required for an identification business scenario;

 The FC communication module is configured to communicate with the FC mobile terminal, and transmit information stored by the identification information storage module to the FC mobile terminal, and the FC mobile terminal transmits the identification information to the server.