CN110281803B - Electric automobile charging system under no communication state based on bluetooth data acquisition - Google Patents

Abstract

The invention belongs to the technical field of electric vehicle charging, and discloses an electric vehicle charging system based on Bluetooth data acquisition in a non-communication state. According to the invention, through Bluetooth communication between the charging facility end and the mobile phone end, and under the condition of user authorization, user identity information of a mobile phone at a user end is obtained, so that information interaction between a charging pile and a user under the environment without an external network is realized, user information is locked, and charging authorization is completed; according to the invention, through the deployed localized charging management system, information synchronization is carried out with the background management master station system in time after communication is recovered, so that the convergence unification of offline data and online data is realized; the invention realizes the continuous charging service for the user in the environment without the communication network.

Description

Electric automobile charging system under no communication state based on bluetooth data acquisition

Technical Field

The invention belongs to the technical field of electric vehicle charging, and particularly relates to an electric vehicle charging system based on Bluetooth data acquisition in a non-communication state.

Background

Currently, the closest prior art:

the development of the electric automobile can accelerate fuel oil substitution and reduce automobile exhaust emission, and has important significance for guaranteeing energy safety, promoting energy conservation and emission reduction, preventing and controlling atmospheric pollution and promoting China to step from the automobile kingdom to the automobile strong country. With the continuous acceleration of the development of the electric automobile industry, the quantity of electric automobiles in China is higher and higher, and as one of the most important charging infrastructures of the electric automobiles, it is important that the charging facilities reliably provide charging services for users.

At present, a charging pile mainly performs data communication transmission in a wired network, a wireless network and other modes, and performs management of charging equipment, user identification and billing settlement management by means of a background management system, so as to realize charging service for users. The existing charging management mode has high dependence on a network, and if a communication fault occurs, the normal use of a charging pile is influenced, so that the normal charging service of a user who urgently needs to be charged is greatly influenced.

The charging problem under the communication state is solved to current electric pile of filling, mainly adopts the pre-charge value card mode of charging, installs IC card read-write equipment on filling electric pile promptly, and the user fills electric pile operator through prestoring certain amount of money, then writes into the amount of money that prestores on this IC card, and when needs charge, the user punches the card on filling electric pile and realizes charging, and the end of charging, pile end IC card read-write equipment deduct the amount of money on the value card to solve the charging problem under the backstage communication condition of can not with information management.

In summary, the problems of the prior art are as follows:

(1) in the prior art, the dependence on a network is high in the charging process, and if a communication fault occurs, the communication fault cannot be processed in time, so that the normal charging service of a user is influenced.

(2) In the prior art, the local information interaction with a user is not realized in a Bluetooth communication mode, and under the condition of network interruption, the identification and locking of the identities of an electric automobile and an automobile owner are lacked, so that the normal operation of charging equipment cannot be maintained, and the charging service can be provided for the user.

(3) The IC card must be recharged in advance in a pre-stored value card swiping charging mode, which is difficult for numerous social vehicles and numerous charging station operators to realize the use of one card at numerous stations like China petroleum and China petrochemical gas stations, the stored value card handling depends on a network, and the temporary card handling is difficult to realize. Meanwhile, the physical IC card is inconvenient to carry and can bring loss to customers due to loss.

The difficulty of solving the technical problems is as follows:

the charging mode of the existing charging pile depends heavily on a communication network, when the communication network is unstable or even interrupted, the charging pile terminal cannot acquire various data information from a background, the charging pile cannot charge, charging is started manually, charging and fee calculation and payment are complex, data statistics is difficult, charging piles are unattended in some situations, the charging pile is 'charged but cannot charge', customer experience is poor, social influence is not good, and economic loss is brought. While it is almost impossible to completely solve the communication problem, offline charging must necessarily exist.

The main off-line charging mode is that a pre-stored value card is charged by swiping the card, but the problem of charging social vehicles without card swiping cannot be solved, the cost is increased by manual attendance, and the intelligent management target cannot be met.

The significance of solving the technical problems is as follows:

according to the invention, the Bluetooth data is used for acquiring the user identity information, the user information is locked to realize charging of the electric automobile in a non-communication state, the charging problem of different types of electric automobiles is met, the limitation of pre-stored value card charging, personnel on duty charging and the like is avoided, the user data is recorded on the charging pile, the uploading of the user charging data or periodic local data extraction (under the condition of no network completely) is realized after communication is recovered, an honest user list and a defaulting user blacklist are established, the charging pile and the client information are intelligently managed, the social service is better, the service quality is improved, and the user experience is enhanced.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an electric vehicle charging system based on Bluetooth data acquisition in a non-communication state. The invention mainly realizes the local information interaction with the user through the Bluetooth technology, and solves the problems of keeping the charging equipment normally running and providing the charging service for the user under the condition of network interruption.

The invention is realized in this way, an electric vehicle charging information management system under the non-communication state based on the user identity information obtained by the Bluetooth data, comprising:

the Bluetooth communication module is used for information interaction between the charging pile and a user mobile phone;

the system comprises a localized charging management system, a charging information system management master station and a charging information system management master station, wherein the localized charging management system is used for charging and charging billing management of the electric automobile in an off-line mode under the condition of no network, realizing localized storage of user information and charging information, and carrying out data synchronization with the charging information system management master station when the network connection is normal;

the charging information management master station background system is used for sending an instruction to carry out data synchronization with the charging facility which is on-line again when the network connection is normal, so that the unified management of charging data is realized;

the charging user side mobile phone APP side is used for pushing order information to a user after the data synchronization of the management master station is completed, and the final settlement of a charging order of the user is completed;

electric automobile fills electric pile, pair through bluetooth communication module and user side cell-phone APP bluetooth, charging terminal bluetooth module obtains through bluetooth communication data processing software and obtains user's personal information, and convey the personal information to electric automobile through the bluetooth mode and fill electric pile data processing module, electric automobile fills electric pile and acquires effectual individual identity information after, the order storage of charging is being filled in electric pile local storage in production, and the electric automobile that starts for the user charges.

Further, the user side mobile phone APP side comprises a Bluetooth communication module 1, an information acquisition software module and a personal data information module.

The Bluetooth communication module 1 is connected to an information acquisition software module, the information acquisition software module is connected to a personal data information module, and the personal data information module is connected to the Bluetooth communication module 1.

Electric automobile fills electric pile includes bluetooth communication module 2, data processing module, control execution module, order management module, intelligent control screen, the rectifier module that charges and switch-on switch.

Electric automobile fills electric pile intelligent control screen and is connected to bluetooth communication module 2, and bluetooth communication module 2 is connected to data processing module, and data processing module is connected to order processing module and control execution module respectively, and control execution module is connected to the switch-on, and the switch-on is connected to rechargeable battery and the rectification module that charges.

Further, bluetooth communication module 1 for be the bluetooth communication device of user side cell-phone APP end from the area, the mobile phone user end that carries bluetooth data acquisition APP when the user reachs near electric automobile fills electric pile, open bluetooth communication function, will fill electric pile with electric automobile in bluetooth communication module 2 pair be connected, and fill electric pile with electric automobile and go up the information acquisition software module that offers user end cell-phone APP end to cell-phone end user identity information demand, simultaneously, transmit the information that obtains from personal data information module for bluetooth communication module 2.

Further, the information acquisition software module is information capture software embedded in the mobile phone, receives the information request information from the bluetooth communication module 1, and informs the personal data information module to transmit the required information to the bluetooth communication module 1 after processing.

Further, the personal data information module is stored in the personal identity and the data information of the mobile phone terminal, receives the data request from the information acquisition module under the condition that the individual allows authorization, and transmits the information to the Bluetooth communication module 2 on the electric vehicle charging pile through the Bluetooth communication module 1.

Furthermore, the intelligent control screen is an LCD display screen for man-machine interaction, a charging user initiates a charging request through the display screen, and the intelligent control screen module transmits the required information to the Bluetooth communication module 2.

Furthermore, the bluetooth communication module 2 is a bluetooth communication device embedded in the charging pile of the electric vehicle, communicates with the bluetooth communication module 1 at the mobile phone end through a bluetooth communication protocol, sends a request for acquiring personal information, is connected to the intelligent control screen to acquire control information, and is connected to the data processing module to transmit the read personal data information.

The data processing module is connected to the Bluetooth communication module 2, receives personal data information transmitted from the user side mobile phone APP through Bluetooth, and is respectively connected to the order management module and the control execution module after data processing of the module.

The order management module is connected to the data processing module, receives the processing result of the data processing module, generates a charging order and stores the charging order locally.

The control execution module is connected to the data processing module, receives the charging information whether the charging information is allowed after the processing of the data processing module, and sends a control signal to the charging on-off switch after the charging information is received, so that the charging on-off switch is closed.

The switch-on switch is connected to the control execution module to receive the charging control information, and is connected to the charging rectification module to switch on the charging power supply to charge the battery of the electric automobile.

The charging rectification module realizes the conversion from external alternating current to charging direct current and is connected to the charging on-off switch, and when the on-off switch is closed, the charging rectification module outputs electric energy to the storage battery of the electric automobile to realize charging.

Another objective of the present invention is to provide a method for managing charging information of an electric vehicle in a non-communication state, which acquires user identity information based on bluetooth data, the method comprising:

based on the Bluetooth communication technology, the local communication between the mobile phone of the charging user and the charging facility is carried out by deploying a local charging management system, the identity information of the charging vehicle and the user is obtained, the charging process data is recorded, the normal charging service for the user is guaranteed under the condition of no network, and the independent operation of the charging facility under the mode of no network is realized.

Further, the electric vehicle charging information management method in the non-communication state for acquiring the user identity information based on the bluetooth data specifically includes:

under the non-communication state, the electric automobile charging pile cannot be networked with a background management information system to realize information interaction, and the charging pile is started to perform charging through identity and payment verification.

When the user needs to charge, the user provides through electric automobile charging pile LCD screen and locks the personal identity information mode request through the bluetooth communication with the authorization and charges, electric automobile charging pile passes through the bluetooth communication mode and successfully pairs with user's cell-phone APP end bluetooth, user's cell-phone APP end obtains user's personal information through information acquisition software, and send personal information for charging pile through the bluetooth mode, electric automobile charging pile acquires effectual personal identity information after, the order storage that generates to charge is in electric automobile charging pile memory, and start to charge for user's electric automobile.

After charging is finished, recorded settlement information such as charging fee is uploaded to a charging management information system after communication is recovered, and meanwhile, the charging management information system contacts with a user to subsidize the charging fee. If the network can not be connected, the charging data is acquired in an off-line mode through the USB disk, and charging fee charging is completed.

The invention also aims to provide the electric automobile for implementing the electric automobile charging information management method under the non-communication state for acquiring the user identity information based on the Bluetooth data.

In summary, the advantages and positive effects of the invention are:

based on the Bluetooth communication technology, the mobile terminal and the mobile phone terminal are in Bluetooth communication to acquire the user information of the mobile phone terminal, and under the condition of user authorization, the charging pile is enabled to perform information interaction with the user under the environment without an external network, the user information is locked, and charging authorization is completed.

The local charging management system deployed by the invention realizes information synchronization with the background management master station system in time after communication is recovered, and realizes convergence and unification of offline data and online data.

The invention realizes the continuous charging service for the user in the network-free environment through the deployed localized charging management system and the background management master station system.

Drawings

Fig. 1 is a flowchart of a method for managing charging information of an electric vehicle in a non-communication state, according to an embodiment of the present invention, for acquiring user identity information based on bluetooth data.

Fig. 2 is a diagram of an electric vehicle charging information management system in a non-communication state for acquiring user identity information based on bluetooth data according to an embodiment of the present invention.

Fig. 3 is a scene diagram of an electric vehicle charging site in a non-communication state implemented by an electric vehicle in a bluetooth data acquisition state according to an embodiment of the present invention.

Fig. 4 is a real object of the intelligent charging pile provided by the embodiment of the invention, wherein the bluetooth communication module is embedded in the LCD display screen.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The prior art does not realize the local information interaction with the user through the Bluetooth technology, and cannot keep the charging equipment to normally operate and provide the charging service for the user under the condition of network interruption.

In view of the problems in the prior art, the present invention provides a method for managing charging information of an electric vehicle in a non-communication state based on bluetooth data to obtain user identity information, and the following describes the present invention in detail with reference to the accompanying drawings.

As shown in fig. 1, the method for managing charging information of an electric vehicle in a non-communication state based on bluetooth data to acquire user identity information according to the embodiment of the present invention solves the charging problem of the electric vehicle in the non-communication state, and specifically includes:

under the non-communication state, the electric automobile charging pile cannot be networked with the background to realize information interaction, payment verification and the like.

But the user has urgent demand of charging again, at this moment, the user can fill electric pile LCD screen through the electric automobile and propose through bluetooth communication and the request of authorized locking personal identity information mode charging, electric automobile fills electric pile and succeeds in pairing with user side cell-phone APP end bluetooth through bluetooth communication mode, the cell-phone end obtains user's personal information through information acquisition software, and send personal information to filling electric pile through the bluetooth mode, fill electric pile and obtain effectual personal identity information after, generate the order of charging and store in filling electric pile memory, and start and charge for user's electric automobile.

After charging is finished, recorded settlement information such as charging fee is uploaded to a charging management information system after communication is recovered, and meanwhile, the charging management information system contacts with a user to subsidize the charging fee. If the charging fee can not be collected, the charging data can be acquired through an off-line mode such as a USB disk, and the charging fee can be collected in the later period.

In the embodiment of the invention, the local communication between the mobile phone of the charging user and the charging facility is realized by deploying a local charging management system based on a Bluetooth communication technology, so that the normal charging service for the user is ensured under the condition of no network, and the charging facility can run independently under the network-free mode. The bluetooth technology is a short-distance radio technology, can effectively realize the communication between mobile communication terminal devices by using the bluetooth technology, and is suitable for the short-distance communication between the devices. Has the following points:

the charging facility is provided with a Bluetooth communication module. The function module is used as a basic function module of the localized communication to realize the localized communication with the mobile phone of the user.

And deploying the localized charging management system. Under the condition of no network, the charging and billing management of the user in an off-line mode is realized, the user information and the charging information are locally stored, and the data synchronization with the management master station is carried out after the subsequent network connection is normal.

And the management master station system deploys a synchronous management function. And after the network connection is normal, sending an instruction to carry out data synchronization with the charging facility on line again, thereby realizing the unified management of the charging data.

The electric vehicle charging pile end deploys local storage and system synchronization functions. And the background charging information management system develops and deploys a system synchronization function, and pushes order information to the user after the data synchronization of the management master station is completed, so that the final settlement of the charging order of the user is completed.

As shown in fig. 2, the electric vehicle charging information management system in the non-communication state, which acquires the user identity information based on the bluetooth data according to the embodiment of the present invention, is composed of two parts, namely, a user-side mobile phone APP and an electric vehicle charging pile.

The user side mobile phone APP comprises a Bluetooth communication module 1, an information acquisition software module and a personal data information module. Electric automobile fills electric pile includes bluetooth communication module 2, data processing module, control execution module, order management module, intelligent control screen, the rectifier module that charges and switch-on switch.

The Bluetooth communication module 1 of the user side mobile phone APP side is connected to the information acquisition software module, the information acquisition software module is connected to the personal data information module, and the personal data information module is connected to the Bluetooth communication module 1.

Electric automobile fills electric pile intelligent control screen and is connected to bluetooth communication module 2, and bluetooth communication module 2 is connected to data processing module, and data processing module is connected to order processing module and control execution module respectively, and control execution module is connected to the switch-on, and the switch-on is connected to rechargeable battery and the rectification module that charges.

Bluetooth communication module 1 be user side cell-phone APP from bluetooth communication device in area, carry user side cell-phone APP to reach near filling electric pile when the user, open bluetooth communication function, will fill electric pile with electric automobile in bluetooth communication module 2 pair and be connected to filling electric pile with electric automobile and submitting the information acquisition software module for user side cell-phone APP end to cell-phone end information demand, simultaneously, will give bluetooth communication module 2 from the information transfer that personal data information module obtained.

The information acquisition software module is information capture software embedded in the mobile phone, receives information request information from the Bluetooth communication module 1, processes the information request information and informs the personal data information module to transmit required information to the Bluetooth communication module 1.

The personal data information module is used for storing personal identity and data information at the mobile phone end, receiving a data request from the information acquisition module under the condition that the individual allows authorization, and transmitting the information to the Bluetooth communication module 2 on the electric vehicle charging pile through the Bluetooth communication module 1.

The Bluetooth communication module 2 is a Bluetooth communication device embedded in the charging pile of the electric automobile, communicates with the Bluetooth communication module 1 of the mobile phone end through a Bluetooth communication protocol, sends a request for acquiring personal information, is connected to the intelligent control screen to acquire control information, and is connected to the data processing module to transmit the read personal data information.

The intelligent control screen is an LCD display screen for man-machine interaction, a charging user initiates a charging request through the display screen, and the intelligent control screen module transmits the required information to the Bluetooth communication module 2.

The data processing module is connected to the Bluetooth communication module 2, receives personal data information transmitted from the user side mobile phone APP through Bluetooth, and is respectively connected to the order management module and the control execution module after data processing of the module.

The order management module is connected to the data processing module, receives the processing result of the data processing module, generates a charging order and stores the charging order locally.

The control execution module is connected to the data processing module, receives the charging information whether the charging information is allowed after the processing of the data processing module, and sends a control signal to the charging on-off switch after the charging information is received, so that the charging on-off switch is closed.

The switch-on switch is connected to the control execution module to receive the charging control information, and is connected to the charging rectification module to switch on the charging power supply to charge the battery of the electric automobile.

The charging rectification module realizes the conversion from external alternating current to charging direct current and is connected to the charging on-off switch, and when the on-off switch is closed, the charging rectification module outputs electric energy to the storage battery of the electric automobile to realize charging.

Fig. 3 is a scene of charging the electric vehicle in a non-communication state by the bluetooth data acquisition state; FIG. 4 is an intelligent charging stake material object of embedding bluetooth communication module on the LCD display screen.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The electric vehicle charging information management system under the non-communication state for acquiring the user identity information based on the Bluetooth data is characterized by comprising:

the Bluetooth communication module is used for information interaction between the charging pile and a user mobile phone;

the system comprises a local charging management system, a charging information management master station background system and a charging information management master station background system, wherein the local charging management system is used for charging and charging billing management of the electric automobile in an off-line mode under the condition of no network, realizing local storage of user information and charging information, and carrying out data synchronization with the charging information management master station background system when the network connection is normal;

the charging information management master station background system is used for sending an instruction to carry out data synchronization with the charging facility which is on-line again when the network connection is normal, so that the unified management of charging data is realized;

the charging user side mobile phone APP side is used for pushing order information to a user after the data synchronization of the management master station is completed, and the final settlement of a charging order of the user is completed;

the charging terminal Bluetooth module acquires personal information of a user through Bluetooth communication data processing software and transmits the personal information to the charging terminal data processing module of the electric automobile in a Bluetooth mode;

the user side mobile phone APP side comprises a Bluetooth communication module 1, an information acquisition software module and a personal data information module;

the Bluetooth communication module 1 is connected to an information acquisition software module, the information acquisition software module is connected to a personal data information module, and the personal data information module is connected to the Bluetooth communication module 1;

the electric vehicle charging pile comprises a Bluetooth communication module 2, a data processing module, a control execution module, an order management module, an intelligent control screen, a charging rectification module and a switch-on switch;

the intelligent control screen of the electric vehicle charging pile is connected to the Bluetooth communication module 2, the Bluetooth communication module 2 is connected to the data processing module, the data processing module is respectively connected to the order processing module and the control execution module, the control execution module is connected to the switch-on switch, and the switch-on switch is connected to the charging battery and the charging rectification module;

bluetooth communication module 1 for user side cell-phone APP end bluetooth communication device from area, it arrives near electric automobile fills electric pile to carry the cell-phone that possesses the bluetooth communication module and install the APP that charges as the user, open bluetooth communication function, will fill the bluetooth communication module 2 among the electric pile with electric automobile and pair the connection, and with electric automobile fill electric pile go up the information acquisition software module that submits for user side cell-phone APP end to cell-phone end information demand, simultaneously, will follow the information transfer that personal data information module obtained and give the bluetooth communication module 2 of the stake end that charges.

2. The system for managing charging information of an electric vehicle in a non-communication state for acquiring user identification information based on bluetooth data as claimed in claim 1, wherein the information acquisition software module is information capture software embedded in a mobile phone, which receives information request data from the bluetooth communication module 1, processes the information request data and informs the personal data information module to transmit the required information back to the bluetooth communication module 1.

3. The system of claim 1, wherein the personal data information module is a bluetooth communication module 2 that stores the personal identity and data information of the mobile phone, receives the data request from the information acquisition module when the personal authorization is allowed, and transmits the data request to the electric vehicle charging post through the bluetooth communication module 1.

4. The system for managing charging information of an electric vehicle in a non-communication state for acquiring user identification information based on bluetooth data as claimed in claim 1, wherein the bluetooth communication module 2 is a bluetooth communication device embedded in the charging pile of the electric vehicle, which communicates with the bluetooth communication module 1 of the mobile phone terminal through a bluetooth communication protocol, and issues a request for acquiring personal information, which is connected to the intelligent control panel to acquire control information, and which is connected to the data processing module to transmit the read personal identification data information.

5. The system for managing charging information of an electric vehicle in a non-communication state, which acquires user identity information based on bluetooth data as claimed in claim 1, wherein the intelligent control screen is an LCD display screen for man-machine interaction, a charging user initiates a charging request through the display screen, and the intelligent control screen module transmits the required information to the bluetooth communication module 2;

the data processing module is connected to the Bluetooth communication module 2, receives personal data information transmitted from a user side mobile phone APP through the Bluetooth module 1, and is respectively connected to the order management module and the control execution module after data processing of the data processing module;

the order management module is connected to the data processing module, receives the processing result of the data processing module, locks the charging user identity information such as name, mobile phone number and micro signal, and generates and stores the charging order locally;

the control execution module is connected to the data processing module, receives the charging information whether the charging information is allowed or not after the processing of the data processing module, and sends a control signal to the charging on-off switch to close the charging on-off switch after receiving the charging information;

the switch-on switch is connected to the control execution module to receive the charging control information and is connected to the charging rectification module to switch on the charging power supply to charge the battery of the electric automobile;

the charging rectification module realizes the conversion from external alternating current to charging direct current and is connected to the charging on-off switch, and when the on-off switch is closed, the charging rectification module outputs electric energy to the storage battery of the electric automobile to realize charging.

6. The electric vehicle charging information management method in the non-communication state for acquiring the user identification information based on the bluetooth data of the electric vehicle charging information management system in the non-communication state for acquiring the user identification information based on the bluetooth data according to claim 1, wherein the electric vehicle charging information management method in the non-communication state for acquiring the user identification information based on the bluetooth data comprises:

based on the Bluetooth communication technology, the local communication between the mobile phone of the charging user and the charging facility is carried out by deploying a local charging pile management and billing management system;

the normal charging service for the user is realized under the condition of no network, and the independent operation of the charging facility under the mode of no network is realized.

7. The method for managing charging information of an electric vehicle in a non-communication state based on bluetooth data for acquiring user identity information according to claim 6, wherein the method for managing charging information of an electric vehicle in a non-communication state based on bluetooth data for acquiring user identity information specifically comprises:

under the condition of no communication, the electric vehicle charging pile cannot be networked with a background to realize information interaction, so that payment verification is realized;

when a user has a charging demand, the user requests charging through Bluetooth communication and an authorized personal identity information locking mode through an electric automobile charging pile intelligent control screen, the electric automobile charging pile is successfully matched with the user side mobile phone APP end through Bluetooth in a Bluetooth communication mode, the user side mobile phone APP end obtains user personal information through information acquisition software and sends the personal information to the charging pile through a Bluetooth mode, and after the electric automobile charging pile acquires effective personal identity information, a charging order is generated and stored in an electric automobile charging pile memory, and the electric automobile charging pile is started to charge the electric automobile of the user;

after charging is finished, the recorded charging fee settlement information is uploaded to a charging management information system after communication is recovered, and meanwhile, the charging fee is paid and collected by contacting with a user; if the charging fee cannot be networked, the charging data is acquired in an off-line mode through the USB disk, and the later-stage tracking and collecting of the charging fee are completed.

8. An electric vehicle implementing the method for managing charging information of an electric vehicle in a non-communication state for acquiring user identity information based on bluetooth data according to claim 6.

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