CN111328022A - Monitoring system based on Bluetooth gateway - Google Patents

Abstract

The application discloses monitored control system based on bluetooth gateway relates to remote control system for the sign information and the positional information of control by the control person. The monitoring system comprises: the wearable acquisition terminal is used for acquiring the physical sign information and the position information of the monitored object and sending the physical sign information and the position information to the Bluetooth gateway; the Bluetooth gateway is used for analyzing the sign information and the position information sent by the wearable acquisition terminal, converting the protocol format and sending the information to the server; and the server is used for sending the physical sign information and the position information sent by the Bluetooth gateway to the display terminal. And the display terminal is used for receiving the physical sign information and the position information sent by the server and displaying the physical sign information and the position information in a preset electronic map. Wherein, the Bluetooth gateway adopts the power over Ethernet mode. Therefore, the physical sign information and the position information of the monitored object can be acquired in real time, and when the monitored person is lost or other abnormal conditions, the search and rescue can be carried out in time according to the position information.

Description

Monitoring system based on Bluetooth gateway

Technical Field

The present application relates to a remote control system, and more particularly, to a monitoring system based on a bluetooth gateway.

Background

With the development of economy, the proportion of empty nesters is increased, and more children are left behind. For the health conditions of the old and the children, each index needs to be detected face to face by using the corresponding sign information collector, so that the long-time health monitoring of the patient is not facilitated, and the condition of the patient is continuously tracked. Even if medical care personnel exist, the medical care personnel can not accompany the old and children all the day. The situation that the old and the children are lost sometimes happens.

Disclosure of Invention

The application provides a monitoring system based on a Bluetooth gateway, which is used for monitoring the physical sign information and the position information of a monitored object.

In a first aspect, an embodiment of the present application provides a monitoring system based on a bluetooth gateway, where the system includes:

terminal, bluetooth gateway, server and display terminal are gathered to wearing formula, wherein:

the wearable acquisition terminal is used for acquiring the physical sign information and the position information of the monitored object and sending the acquired physical sign information and the position information to the Bluetooth gateway through a Bluetooth network according to a protocol supported by the wearable acquisition terminal;

the Bluetooth gateway is used for analyzing the physical sign information and the position information sent by the wearable acquisition terminal, converting the protocol format of the physical sign information and the position information into a protocol format supported by the display terminal and then sending the protocol format to the server;

and the server is used for receiving the physical sign information and the position information of the physical sign information, which are converted from the protocol format sent by the Bluetooth gateway into the protocol format supported by the display terminal, and sending the physical sign information and the position information to the display terminal.

The display terminal is used for receiving the sign information and the position information sent by the server and displaying the position information and the sign information in a preset electronic map;

the Bluetooth gateway adopts an Ethernet Power Over Ethernet Power supply mode.

Further, the bluetooth gateway includes: the Bluetooth system comprises a low-power consumption Bluetooth with the power consumption lower than a first preset value, a main processor and a wireless network module;

the low-power-consumption Bluetooth is used for receiving the physical sign information and the position information sent by the wearable acquisition terminal and sending the physical sign information and the position information to the main processor;

and the main processor is used for carrying out protocol analysis on the physical sign information and the position information thereof sent by the wearable acquisition terminal, converting the protocol formats of the physical sign information and the position information into the protocol format supported by the display terminal, and then sending the protocol formats to the server through the wireless network module.

Further, the main processor includes: a first processor and a second processor;

the first processor is used for receiving and analyzing the physical sign information and the position information sent by the low-power Bluetooth and sending the analyzed physical sign information and the analyzed position information to the second processor;

the second processor is used for receiving the analyzed sign information and the position information sent by the first processor, converting a protocol format into a protocol format supported by the display terminal, and sending the protocol format to the server through the wireless network module; and the power consumption of the second processor is lower than a second preset value, and the transmission distance is greater than a preset distance.

Further, the wearable acquisition terminal comprises a positioning module and at least one of the following devices: sphygmomanometer, blood glucose meter, and thermometer.

Further, the server is further configured to:

and if detecting that the first preset time length does not receive the position information of the monitored object sent by the Bluetooth gateway, sending loss of connection alarm information of the monitored object to a display terminal, wherein the alarm information carries the position information of the monitored object received last time.

And the display terminal is also used for receiving the loss of contact alarm information of the monitored object sent by the server and displaying the loss of contact alarm information.

Further, the server is further configured to:

after receiving the sign information of which the protocol format is converted into the protocol format supported by the display terminal, and aiming at the monitored object, if the received sign information is the preset sign information which represents unhealthy, sending alarm information aiming at the abnormal sign of the monitored object to the display terminal.

The display terminal is further used for receiving the alarm information of the abnormal physical signs of the monitored object sent by the server and displaying the alarm information of the abnormal physical signs.

Further, the server is further configured to: storing the position information of the monitored object;

after receiving an acquisition request for acquiring the motion trail of the monitored object within the specified time, generating the motion trail within the specified time according to the stored position information of the monitored object, and sending the motion trail to the display terminal;

and the display terminal is also used for receiving and displaying the motion trail of the monitored object in the specified time length.

On the other hand, an embodiment of the present application further provides a bluetooth gateway, where the bluetooth gateway includes: the Bluetooth system comprises a low-power consumption Bluetooth with the power consumption lower than a first preset value, a main processor and a wireless network module;

the low-power Bluetooth is used for receiving the physical sign information and the position information thereof sent by the portable acquisition terminal and sending the physical sign information and the position information thereof to the first processor;

the main processor is used for carrying out protocol analysis on the physical sign information and the position information thereof sent by the wearable acquisition terminal, converting the protocol formats of the physical sign information and the position information into the protocol format supported by the display terminal, and sending the protocol format to the server through the wireless network module;

the Bluetooth gateway adopts a power supply mode of Ethernet POE.

Further, the main processor includes: a first processor and a second processor;

the first processor is used for receiving the physical sign information and the position information thereof sent by the low-power Bluetooth and sending the physical sign information and the position information thereof to the second processor after analyzing the physical sign information and the position information thereof;

the second processor is used for receiving the analyzed physical sign information and the position information thereof sent by the first processor, converting the protocol format of the physical sign information and the position information thereof into a protocol format supported by the display terminal, and sending the protocol format to the server through the wireless network module; and the power consumption of the second processor is lower than a second preset value, and the transmission distance is greater than a preset distance.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments of the present invention will be briefly described below, and it is obvious that the drawings described below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view; an application scenario diagram of the embodiment of the application;

FIG. 2 is a schematic view; the monitoring system of the embodiment of the application is schematic;

FIG. 3 is a schematic view; another application scenario diagram of the embodiment of the application;

FIG. 4 is a schematic view; another application scenario diagram of the embodiment of the application;

FIG. 5 is a schematic view; another application scenario diagram of the embodiment of the application;

FIG. 6 is a schematic view; the bluetooth gateway schematic diagram of the embodiment of the application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

As shown in fig. 1, it is a scene schematic diagram for monitoring the physical sign information and the location information of the monitored object by the present embodiment. The scene includes wearable acquisition terminal 20 of user 10, wearable acquisition terminal 21 of user 11, wearable acquisition terminal 22 of user 12, bluetooth gateway 01, server 02, display terminal 03 and POE power supply module 04.

The wearable collection terminal 20 collects physical sign information (e.g., information about pulse, blood pressure, blood sugar, body temperature, etc.) and location information of the user 10, and transmits the information to the bluetooth gateway 01. The same wearable acquisition terminal 21 acquires the physical sign information and the position information of the user 11, and the wearable acquisition terminal 22 acquires the physical sign information and the position information of the user 12 and sends the information to the bluetooth gateway 01. After receiving the physical sign information and the location information of the user sent by the wearable acquisition information 20, 21, 22, the bluetooth gateway 01 analyzes the information, converts the protocol format of the information into the protocol format supported by the display terminal 03, and then sends the information to the server 02. The server 02 receives the information after the protocol analysis sent by the bluetooth gateway 01, and then sends the information to the display terminal 03. The display terminal 03 displays the received physical sign information and the received position information of the users 10, 11 and 12 on a preset electronic map. It should be noted that, here, adopt the POE power supply mode to bluetooth gateway 01, not only can transmit data signal and can also provide direct current supply, the normal operation of network has been guaranteed to the mode of POE power supply when having guaranteed current structural wiring safety, can satisfy the requirement of different occasions, and application range is wide, the cost is reduced.

The wearable acquisition terminal can be a wristwatch, a bracelet and the like, and the display terminal can be a mobile phone, a tablet computer, a notebook computer, a personal computer and the like.

As shown in fig. 2, fig. 2 is a schematic view of the monitoring system in the present embodiment. This monitored control system includes, wearing formula acquisition terminal 1, bluetooth gateway 2, server 3 and display terminal 4. The wearable acquisition terminal 1 is used for acquiring physical sign information and position information of a monitored object and sending the acquired physical sign information and position information to the Bluetooth gateway 2 through a Bluetooth network according to a protocol supported by the wearable acquisition terminal; the Bluetooth gateway 2 is used for analyzing the physical sign information and the position information sent by the wearable acquisition terminal 1, converting the protocol format of the physical sign information and the position information into a protocol format supported by the display terminal, and sending the protocol format to the server 3; and the server 3 is used for receiving the physical sign information and the position information of the physical sign information, which are converted into the protocol format supported by the display terminal, from the protocol format sent by the Bluetooth gateway 2 and sending the physical sign information and the position information to the display terminal 4. And the display terminal 4 is used for receiving the physical sign information and the position information sent by the server 3 and displaying the position information and the physical sign information in a preset electronic map. It should be noted that the bluetooth gateway 2 adopts a POE power supply method.

By the monitoring system, the physical sign information and the position information of the monitored object can be known, and the physical sign information and the position information of the monitored object can be acquired in real time, so that a guardian can monitor the monitored person conveniently. When the person under guardianship is lost or the like, the search and rescue can be carried out in time according to the position information. And this monitored control system adopts POE power supply mode, can satisfy the demand of different scenes, and application range is extensive.

In this embodiment, the bluetooth gateway includes: the Bluetooth system comprises a low-power Bluetooth module, a main processor and a wireless network module, wherein the power consumption of the low-power Bluetooth module is lower than a first preset value. The low-power-consumption Bluetooth is used for receiving the physical sign information and the position information sent by the wearable acquisition terminal and sending the physical sign information and the position information to the main processor; and the main processor is used for carrying out protocol analysis on the physical sign information and the position information thereof sent by the wearable acquisition terminal, converting the protocol formats of the physical sign information and the position information into the protocol format supported by the display terminal, and then sending the protocol formats to the server through the wireless network module.

In specific implementation, the first preset value is set according to the actual situation. Preferably, a WLT2564M Bluetooth module can be used, which supports Bluetooth BR/EDR/LE and Bluetooth 4.0. The wearable acquisition terminal that inserts can not receive the agreement restriction, has improved monitored control system's compatibility greatly, has enlarged application range, and then has guaranteed to utilize monitored control system to realize long-time dynamic health monitoring, is convenient for trail the condition of monitored object. In addition, for limitations such as the standby power consumption is big, wireless standard is comparatively complicated that traditional bluetooth exists, adopt bluetooth 4.0 and Bluetooth Low Energy (BLE) technique can obtain lower consumption in this monitored control system, facilitate for the user.

Further, in this embodiment, the main processor includes: a first processor and a second processor. The first processor is used for receiving and analyzing the physical sign information and the position information sent by the low-power Bluetooth and sending the analyzed physical sign information and the analyzed position information to the second processor; the second processor is used for receiving the analyzed physical sign information and the position information sent by the first processor, converting the protocol format into a protocol format supported by the display terminal, and sending the protocol format to the server through the wireless network module; here, the power consumption of the second processor is lower than a second preset value, and the transmission distance is greater than a preset distance.

In specific implementation, the second preset value and the preset distance are set according to actual conditions. Preferably, the first processor may use an MSP430 processor and the second processor uses a TM4C129 processor. The first processor MSP430 performs data transmission with the bluetooth WLT2564M by using the UART interface, receives the physical sign information and the location information of the monitored object transmitted by the bluetooth low energy, analyzes the physical sign information and the location information, and transmits the physical sign information and the location information to the second processor TM4C 129. The second processor is used for carrying out protocol format conversion on the analyzed physical sign information and the analyzed position information, converting the protocol format into a protocol format supported by the display terminal, and sending the physical sign information and the position information to the server through the wireless network module. It should be noted that, the Wireless network module integration is for all protocols of Wireless local area network (wlan) Wireless Fidelity and the internet, and preferably, the CC3100 device can be used, which reduces the requirements for the server to the maximum extent.

Through the embodiment, the two processors are adopted to process the information sent by the Bluetooth in parallel, the processing of the information is accelerated, and the communication distance is long.

In this embodiment, the wearable acquisition terminal includes a positioning module and at least one of the following devices: a sphygmomanometer, a blood glucose meter, a thermometer, etc. In specific implementation, the collected sign information can be selected and adjusted according to the requirements of the monitored object. The wearable acquisition terminal can also be an acquisition terminal which is convenient to carry by monitored objects, such as a wristwatch, a bracelet and the like. The wearable acquisition terminal can acquire physical sign information required by a user, such as blood pressure, blood sugar, body temperature, pulse and the like, and must acquire the position information of the monitored object, so that the user can conveniently monitor the position information of the monitored object.

Through the embodiment, the wearable acquisition terminal is adopted to greatly facilitate the monitored object, the position information, the blood pressure, the pulse and other physical signs of the monitored object can be acquired through the wearable acquisition terminal, the position information and the physical sign information of the monitored object can be conveniently acquired, and the application range is wide.

Further, in this embodiment, the server is further configured to, for the monitored object, send loss of connection alarm information for the monitored object to the display terminal if it is detected that the first preset duration does not receive the position information of the monitored object sent by the bluetooth gateway, where the alarm information carries the last received position information of the monitored object. The display terminal is also used for receiving the loss of connection alarm information of the monitored object sent by the server and displaying the loss of connection alarm information. The first preset duration is set according to the actual situation, and is not limited specifically here.

As shown in fig. 3, fig. 3 is a schematic view of an application scenario of the present embodiment. In this scenario there is a server 01 and a display terminal 02. For the monitored object, if the server 01 detects that the position information of the monitored object a sent by the bluetooth gateway is not received within 5 minutes, sending loss of connection alarm information for the monitored object a to the display terminal 02, wherein the loss of connection alarm information carries the last received position information of the monitored object a. Preferably, different alarm sounds, such as buzzes, chimes and the like, can be specified for the loss of contact alarm information of each monitored object, and are stored in the server, and when the fact that the position information of the monitored object is not received within 5 minutes is detected, the stored different alarm sounds for each monitored object are sent to the display terminal together. After receiving the loss of connection alarm information, the display terminal 02 sends out a preset alarm sound, and displays the last position information of the monitored object in the map.

Therefore, the problem that the monitored object A is abnormal can be timely known, the problem that the problem is timely solved is solved, for example, the position information of the object A can not be obtained after the object A leaves the monitoring range, the object A can be easily and timely determined to be lost within 5 minutes (for example, within 5 minutes), the lost time of the object A is only about 5 minutes, and the object A can be timely and conveniently found within 5 minutes. That is, whether the monitored object is lost or not can be quickly known, and the search and rescue can be performed according to the last position information of the monitored object.

In this embodiment, the server is further configured to, after receiving the physical sign information in the protocol format supported by the display terminal converted from the protocol format sent by the bluetooth gateway, send, for the monitored object, alarm information that is specific to the physical sign abnormality of the monitored object to the display terminal if the received physical sign information is preset physical sign information that indicates unhealthy. The display terminal is also used for receiving the alarm information of the abnormal physical signs of the monitored object sent by the server and displaying the alarm information of the abnormal physical signs.

As shown in fig. 4, fig. 4 is a schematic diagram of an application scenario of the present embodiment. In this scenario there is a server 401 and a display terminal 402. When the server 401 receives the physical sign information of the monitored object and has the problems of weak pulse, low blood pressure, high body temperature and the like, the server sends alarm information aiming at the physical sign abnormality of the monitored object to the display terminal 402. Preferably, different alarm sounds, such as radar, sea waves, air defense alarms and other sounds, can be specified for the alarm information of each monitored object with abnormal physical signs, and are stored in the server. And when receiving the abnormal physical sign information, sending the alarm sound to the display terminal together. The display terminal 402 sounds an alarm and displays the sign information.

Through the embodiment, the physical sign condition of the monitored object can be rapidly known, when the monitored object has abnormal physical signs, the monitored object can be rapidly rescued or treated, and the monitored object can be rescued in the optimal treatment time.

As shown in fig. 5, fig. 5 is a schematic diagram of an application scenario in the present embodiment. In this scenario there is a server 501 and a display terminal 502. The server 501 is used to store the location information of the monitored object. And after receiving an acquisition request for acquiring a motion trajectory within a specified duration, for example, 1 hour, of the monitored object, a motion trajectory within 1 hour is generated according to the stored position information of the monitored object, and is sent to the display terminal 502. The display terminal 502 displays the received movement locus of the monitored object within 1 hour on a map.

Therefore, the user can know the motion track of the monitored object, and when the monitored object is in a different condition of losing connection, the user can search and rescue according to the motion track of the monitored object. The specified duration can be set according to the actual situation, and is not specifically limited here.

Based on the same inventive concept, this embodiment further provides a bluetooth gateway, which includes: the Bluetooth device comprises a low-power Bluetooth module, a main processor and a wireless network module, wherein the power consumption of the low-power Bluetooth module is lower than a preset value. As shown in fig. 6, fig. 6 is a schematic diagram of a bluetooth gateway in this embodiment. The low-power-consumption Bluetooth 1 is used for receiving the physical sign information and the position information thereof sent by the portable acquisition terminal and sending the physical sign information and the position information thereof to the first processor; and the main processor 2 is used for carrying out protocol analysis on the physical sign information and the position information thereof sent by the wearable acquisition terminal, converting the protocol formats of the physical sign information and the position information into the protocol format supported by the display terminal, and sending the protocol format to the server through the wireless network module. Wherein, the bluetooth gateway adopts POE power supply mode, and wireless network module has integrateed all agreements to wifi and internet.

Through the embodiment, the Bluetooth gateway adopts a POE power supply mode, ensures the normal operation of the network while ensuring the safety of the existing structural wiring, can meet the requirements of different occasions, has wide application range and reduces the cost.

Further, the main processor includes: a first processor and a second processor. The first processor is used for receiving the physical sign information and the position information thereof sent by the low-power Bluetooth, analyzing the physical sign information and the position information thereof and sending the physical sign information and the position information to the second processor; and the second processor is used for receiving the analyzed physical sign information and the position information thereof sent by the first processor, converting the protocol format of the physical sign information and the position information thereof into a protocol format supported by the display terminal, and sending the protocol format to the server through the wireless network module. And the power consumption of the second processor is lower than a second preset value, and the transmission distance is greater than a preset distance.

In specific implementation, the second preset value and the preset distance are set according to actual conditions. Preferably, the first processor may use an MSP430 processor and the second processor uses a TM4C129 processor. The first processor MSP430 performs data transmission with the bluetooth WLT2564M by using the UART interface, receives the physical sign information and the location information of the monitored object transmitted by the bluetooth low energy, analyzes the physical sign information and the location information, and transmits the physical sign information and the location information to the second processor TM4C 129. The second processor is used for carrying out protocol format conversion on the analyzed physical sign information and the analyzed position information, converting the protocol format into a protocol format supported by the display terminal, and sending the physical sign information and the position information to the server through the wireless network module. It should be noted that, the wireless network module integrates all protocols for wifi and internet, and in specific implementation, the CC3100 device can be used, so as to reduce the requirements on the server to the maximum extent.

Through the embodiment, the two processors are adopted to process the information sent by the Bluetooth in parallel, the processing of the information is accelerated, and the communication distance is long.

The above embodiments are only used to describe the technical solutions of the present application in detail, but the above embodiments are only used to help understanding the method of the embodiments of the present invention, and should not be construed as limiting the embodiments of the present invention.

While the preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all alterations and modifications as fall within the scope of the application.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (9)

1. The utility model provides a monitored control system based on bluetooth gateway, a serial communication port, the system contains wearing formula acquisition terminal, bluetooth gateway, server and display terminal, wherein:

the wearable acquisition terminal is used for acquiring the physical sign information and the position information of the monitored object and sending the acquired physical sign information and the position information to the Bluetooth gateway through a Bluetooth network according to a protocol supported by the wearable acquisition terminal;

the Bluetooth gateway is used for analyzing the physical sign information and the position information sent by the wearable acquisition terminal, converting the protocol format of the physical sign information and the position information into a protocol format supported by the display terminal and then sending the protocol format to the server;

the server is used for receiving the physical sign information and the position information of the physical sign information, which are transmitted by the Bluetooth gateway and are converted into the protocol format supported by the display terminal, and transmitting the physical sign information and the position information to the display terminal;

the display terminal is used for receiving the sign information and the position information sent by the server and displaying the position information and the sign information in a preset electronic map;

and the Bluetooth gateway adopts a power supply mode of Ethernet POE.

2. The monitoring system of claim 1, wherein the bluetooth gateway comprises: the Bluetooth system comprises a low-power consumption Bluetooth with the power consumption lower than a first preset value, a main processor and a wireless network module;

the low-power-consumption Bluetooth is used for receiving the physical sign information and the position information sent by the wearable acquisition terminal and sending the physical sign information and the position information to the main processor;

and the main processor is used for carrying out protocol analysis on the physical sign information and the position information thereof sent by the wearable acquisition terminal, converting the protocol formats of the physical sign information and the position information into the protocol format supported by the display terminal, and then sending the protocol formats to the server through the wireless network module.

3. The monitoring system of claim 2, wherein the main processor comprises: a first processor and a second processor;

the first processor is used for receiving and analyzing the physical sign information and the position information sent by the low-power Bluetooth and sending the analyzed physical sign information and the analyzed position information to the second processor;

the second processor is used for receiving the analyzed sign information and the position information sent by the first processor, converting a protocol format into a protocol format supported by the display terminal, and sending the protocol format to the server through the wireless network module; and the power consumption of the second processor is lower than a second preset value, and the transmission distance is greater than a preset distance.

4. The monitoring system of claim 1, wherein the wearable acquisition terminal comprises a positioning module and at least one of: sphygmomanometer, blood glucose meter, and thermometer.

5. Monitoring system according to claim 1,

the server is further configured to:

for the monitored object, if it is detected that the position information of the monitored object sent by the Bluetooth gateway is not received within a first preset time, sending loss of connection alarm information for the monitored object to a display terminal, wherein the alarm information carries the position information of the monitored object received last time;

and the display terminal is also used for receiving the loss of contact alarm information of the monitored object sent by the server and displaying the loss of contact alarm information.

6. Monitoring system according to claim 1,

the server is further configured to:

after receiving the physical sign information of which the protocol format is converted into the protocol format supported by the display terminal, and aiming at the monitored object, if the received physical sign information is the preset physical sign information which represents unhealthy, sending alarm information aiming at the physical sign abnormal of the monitored object to the display terminal;

the display terminal is further used for receiving the alarm information of the abnormal physical signs of the monitored object sent by the server and displaying the alarm information of the abnormal physical signs.

7. Monitoring system according to claim 1,

the server is further configured to: storing the position information of the monitored object;

after receiving an acquisition request for acquiring the motion trail of the monitored object within the specified time, generating the motion trail within the specified time according to the stored position information of the monitored object, and sending the motion trail to the display terminal;

and the display terminal is also used for receiving and displaying the motion trail of the monitored object in the specified time length.

8. A bluetooth gateway, characterized in that the bluetooth gateway comprises: the Bluetooth system comprises a low-power consumption Bluetooth with the power consumption lower than a first preset value, a main processor and a wireless network module;

the low-power Bluetooth is used for receiving the physical sign information and the position information thereof sent by the portable acquisition terminal and sending the physical sign information and the position information thereof to the first processor;

the main processor is used for carrying out protocol analysis on the physical sign information and the position information thereof sent by the wearable acquisition terminal, converting the protocol formats of the physical sign information and the position information into the protocol format supported by the display terminal, and sending the protocol format to the server through the wireless network module;

the Bluetooth gateway adopts a power supply mode of Ethernet POE.

9. The bluetooth gateway of claim 8, wherein the host processor comprises: a first processor and a second processor;

the first processor is used for receiving the physical sign information and the position information thereof sent by the low-power Bluetooth and sending the physical sign information and the position information thereof to the second processor after analyzing the physical sign information and the position information thereof;

the second processor is used for receiving the analyzed physical sign information and the position information thereof sent by the first processor, converting the protocol format of the physical sign information and the position information thereof into a protocol format supported by the display terminal, and sending the protocol format to the server through the wireless network module; and the power consumption of the second processor is lower than a second preset value, and the transmission distance is greater than a preset distance.

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