CN111918215A

CN111918215A - Method and system for tracking closely infected persons through Bluetooth

Info

Publication number: CN111918215A
Application number: CN202010612684.6A
Authority: CN
Inventors: 王云峰; 许尔霈; 王爱丽
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-06-30
Filing date: 2020-06-30
Publication date: 2020-11-10

Abstract

The invention provides a method and a system for tracking closely infected persons through Bluetooth, which search nearby mobile phone Bluetooth devices through mobile phone Bluetooth, store the searched mobile phone Bluetooth device information, the current time and the mobile phone positioning information in Bluetooth device records found by a mobile phone, and delete the Bluetooth device records exceeding the period of the infectious disease latency time. After a mobile phone user is diagnosed as an infectious disease patient, the found Bluetooth device records are uploaded to the personnel contact information database server through a wireless network by using the uploading function of mobile phone application software. And (4) searching and tracking the close contact person by the staff of the disease control center according to the Bluetooth equipment information which is found by the mobile phone of the confirmed patient in the staff contact information database. The invention can construct a simple, accurate and easy-to-implement infectious disease close contact person tracking and managing system, and provides an effective support means for infectious disease prevention and control.

Description

Method and system for tracking closely infected persons through Bluetooth

Technical Field

The invention relates to the technical field of infectious disease control, in particular to a method and a system for tracking closely infected persons through Bluetooth.

Background

In the period of new coronary pneumonia epidemic situation, digital technologies such as 5G, big data, artificial intelligence and cloud computing play an important role in the aspects of epidemic situation monitoring and analysis, virus tracing, prevention and control treatment, resource allocation and the like, which not only has great significance for epidemic situation prevention and control, but also is beneficial to improving the digital treatment capacity and treatment level of each region.

During the new crown pneumonia epidemic situation, three basic telecommunication enterprises provide the '14-day visit place inquiry' service for users based on telecommunication big data analysis under the condition of obtaining user authorization according to the need of epidemic situation prevention and control. The service can help related departments to improve the efficiency of checking the journey of the flowing personnel, check the important group and implement accurate prevention and control.

During the epidemic situation of the new coronary pneumonia, a close-contact person inquiry system 'close-contact person measuring instrument' for the new coronary pneumonia patients, which is developed by combining national Weijian Commission and China electronic department and is based on big data analysis, is widely applied after being put on line. The software can be downloaded to a mobile phone by scanning the two-dimensional code, and common public can inquire whether the software is a close contact person of a new coronary pneumonia confirmed patient or not by inputting personal information. Under the strong support of related national departments, the tool platform obtains data resource support in various aspects such as national health and fitness committee, department of transportation, national railway group, civil aviation bureau and the like, and fundamentally ensures the authority of data sources. The whole processes of data acquisition, storage, management, use and the like of the system are completed on a Chinese electric cloud platform subjected to high-level security certification. And the data processing is safe and controllable, and the flow is compliant, so that information leakage is prevented.

In order to strengthen the source management and control of public transport travel, ensure that public transport passenger information can be inquired and traced, and better ensure the healthy and safe travel of people in the whole city, units such as Wuhan city transportation bureau joint payment treasure, Wuhan small code city-connected science and technology limited company and the like utilize Hubei province health codes and research and develop a 'Wuhan city real-name registration riding' system. Before citizens go out, the health code 'green code' in Hubei province needs to be acquired, and the corresponding two-dimensional code needs to be scanned during riding, so that riding information is automatically uploaded. One purpose of real-name registration of public transport passengers is ride-sharing traceability, and once a person is diagnosed in the later period, the passenger can be informed through a ride-sharing traceability system.

Israel will use anti-terrorist measures against the new coronavirus. The Xinbeige is responsible for the domestic safety organization of the Xinbeige, and the track of the new coronary diagnostician within 14 days can be tracked by a mobile phone. The technology is used for anti-terrorism, and a mobile phone sends a code to a mobile company, so that the mobile company can know where the mobile company goes within 30 days, and the risk of spreading new coronavirus is reduced to the greatest extent.

The above-mentioned "close contact person measuring instrument" can only judge the close contact situation for train passengers and airplane passengers according to their train number or flight seat information, and cannot track the close contact situation of persons in other scenes. The public transport passenger scanning real-name registration needs the passenger real-name registration and manually scans the code when getting on or off the bus, and the close contact condition of other public places cannot be covered. The ' 14-day visiting place inquiry ' of three domestic home telecommunication operators and Israel ' inquiry about where people go in 30 days by a mobile phone track can not accurately determine the close contact condition of people.

Disclosure of Invention

The invention provides a method and a system for tracking closely contacted persons with infectious diseases through Bluetooth, aiming at solving the problems in the prior art, and the method and the system can realize accurate, simple and easy-to-implement automatic tracking of the closely contacted persons with the infectious diseases.

The invention provides a method for tracking closely infected persons through Bluetooth, which comprises the following steps:

1) the mobile phone user installs the close contact tracking APP on the mobile phone, and the close contact tracking APP provides information for the health code of the mobile phone user and updates the health code of the close contact person. The mobile phone APP reads the mobile phone Bluetooth MAC address and the mobile phone number when running for the first time and registers the mobile phone number and the mobile phone number through the wireless network by using the MAC address and the mobile phone number in the personnel contact information database server.

2) The mobile phone APP starts the mobile phone Bluetooth and allows the mobile phone APP to be discovered by other devices.

3) The mobile phone APP periodically searches surrounding Bluetooth devices to obtain other surrounding mobile phone Bluetooth MAC addresses and Bluetooth signal strength RSSI values with the APP installed.

4) And the mobile phone APP stores the obtained mobile phone Bluetooth MAC address, the Bluetooth RSSI intensity, the current time and the current mobile phone positioning information in the Bluetooth equipment records found by the mobile phone.

5) After a mobile phone user is diagnosed as an infectious disease patient, the Bluetooth MAC address and the mobile phone number of the mobile phone and the found Bluetooth equipment record are uploaded to a personnel contact information database server through a mobile phone wireless network by using the uploading function of the mobile phone APP.

6) And the personnel contact information database server analyzes the received Bluetooth MAC address and the mobile phone number of the mobile phone and the found Bluetooth equipment record information and stores the analyzed information into a personnel contact information database. Bluetooth device records stored in the bluetooth device records that exceed the period of the infectious disease latency period are found to be deleted.

7) And the staff of the disease control center enters the system by using the client, the close contact person is tracked according to the Bluetooth MAC address found by the confirmed patient in the staff contact information base, and the corresponding mobile phone number is inquired through the Bluetooth MAC address when the close contact person registers.

8) The disease control center staff carries out epidemic-related research through mobile phone positioning information generated by close contact.

9) The disease control center staff searches the real-name information of the close contact person by accessing the user database of the mobile phone operator, and sends a notification message of the close contact situation to the close contact person through the system.

10) The mobile phone user inquires the close contact condition through the mobile phone APP.

The invention also provides a system for tracking the infectious disease close contact persons through Bluetooth, which comprises a mobile phone terminal close contact tracking APP, a personnel contact information database server, a close contact person management server, a notification push server, PC end equipment, a firewall and a router, wherein the close contact person management server and the PC end equipment are connected through a local area network, and each server and the PC end equipment are connected with an external network through the firewall router.

The personnel contact information database server, the close contact management server and the notification push server can be independently arranged or can use a virtual machine.

The system can be used independently or can be interconnected with a mobile phone operator user database server and/or a health code management system through a network, and if the system is interconnected with the mobile phone operator user database server, the system comprises a software module which is used for inquiring the mobile phone operator user database to acquire real-name authentication information of a mobile phone user; if interconnected with the health code management system, the system includes software modules for information interaction with the health code system.

The system is deployed at disease control centers of different administrative regions simultaneously, and data are shared among the systems through a network.

The invention has the beneficial effects that: the invention can construct a simple, accurate and easy-to-implement infectious disease close contact person tracking and managing system, and provides an effective support means for infectious disease prevention and control.

Drawings

FIG. 1 is a block diagram of a system for tracking a person in close contact via Bluetooth in accordance with an embodiment of the present invention;

fig. 2 is a flowchart of a mobile phone APP according to an embodiment of the present invention.

Detailed Description

The invention will be further explained with reference to the drawings.

As shown in fig. 1, the system for tracking an infectious disease close contact person through mobile phone bluetooth in the embodiment of the present invention includes a mobile phone terminal close contact tracking APP, a personnel contact information database server, a close contact person management server, a notification push server, a PC end device, a firewall and a router, where the close contact person management server and the PC end device are connected through a local area network, and each server and the PC end device are connected with an external network through the firewall and the router.

The close contact person information management server and the notification push server are connected through a local area network to form an infectious disease close contact person tracking system. The system is connected with an external network through a firewall by a router.

The system comprises PC end equipment which is connected through a switch, and a disease control center worker manages and operates the system through the PC end equipment, wherein the PC end equipment can be a B/S (browser/Server) framework or a C/S framework.

If the data volume is large, the system can be deployed in disease control centers at the level of each county (district), and the database can be stored by using a disk array. The intimate contact tracking systems at the county (district) level may access shared data with each other.

The working method of the invention is as follows:

3) The mobile phone APP periodically searches for the surrounding bluetooth devices to obtain other surrounding mobile phone bluetooth MAC addresses and bluetooth signal strength RSSI values in which the APP is also installed, as shown in fig. 2.

5) After a mobile phone user is diagnosed as an infectious disease patient, the Bluetooth MAC address and the mobile phone number of the mobile phone and the found Bluetooth equipment record are uploaded to a personnel contact information database server through a mobile phone wireless network by using the uploading function of the mobile phone APP. And after receiving the personnel contact information, the personnel contact information database server software analyzes the information, and adds the personnel contact information data to the name of the mobile phone user in the database by calling an sql statement and taking the Bluetooth MAC address or the mobile phone number as a key word.

7) And the staff of the disease control center enters the system by using the client, the close contact person is tracked according to the Bluetooth MAC address found by the confirmed patient in the staff contact information base, and the corresponding mobile phone number is inquired through the Bluetooth MAC address when the close contact person registers. The disease control center personnel management client comprises a login module, an intimate contact query module, an intimate contact management module, an intimate contact real-name module and a health code updating module.

While the invention has been described in terms of its preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims

1. A method for tracking an infectious disease close contact person by bluetooth, comprising the steps of:

1) a mobile phone user installs a close contact tracking APP on a mobile phone and registers;

2) the mobile phone APP starts the mobile phone Bluetooth and allows the mobile phone Bluetooth to be discovered by other equipment;

3) the method comprises the steps that a mobile phone APP periodically searches surrounding Bluetooth devices to obtain other surrounding mobile phone Bluetooth MAC addresses and Bluetooth signal strength RSSI values, wherein the mobile phone APP is also installed on the surrounding mobile phone Bluetooth MAC addresses and Bluetooth signal strength RSSI values;

4) the mobile phone APP stores the obtained mobile phone Bluetooth MAC address, the Bluetooth RSSI intensity, the current time and the current mobile phone positioning information in a Bluetooth device record discovered by the mobile phone;

5) after a mobile phone user is diagnosed as an infectious disease patient, the Bluetooth MAC address and the mobile phone number of the mobile phone and the found Bluetooth equipment record are uploaded to a personnel contact information database server through a mobile phone wireless network by using the uploading function of a mobile phone APP;

6) the personnel contact information database server analyzes the received Bluetooth MAC address and the mobile phone number of the mobile phone and the found Bluetooth equipment record information and stores the analyzed information into a personnel contact information database;

7) a disease control center worker enters the system by using a client, tracks the close contact person according to the Bluetooth MAC address found by the confirmed patient in the person contact information base, and inquires the corresponding mobile phone number of the close contact person through the Bluetooth MAC address when the close contact person registers;

8) the disease control center staff carries out epidemic related research through mobile phone positioning information generated by close contact;

9) the disease control center staff searches the real-name information of the close contact person by accessing the user database of the mobile phone operator, and sends a notification message of the close contact condition to the close contact person through the system;

2. The method of claim 1 for tracking infectious disease close contacts by bluetooth, wherein: the close contact tracking APP provides information for the health code of the mobile phone user and updates the health code of the close contact person.

3. The method of claim 1 for tracking infectious disease close contacts by bluetooth, wherein: in the step 1), when the mobile phone APP operates for the first time, the mobile phone Bluetooth MAC address and the mobile phone number are read, and the mobile phone APP registers the mobile phone number and the mobile phone number through the wireless network by using the MAC address and the mobile phone number in the personnel contact information database server.

4. The method of claim 1 for tracking infectious disease close contacts by bluetooth, wherein: and 6), the Bluetooth device records which are stored in the Bluetooth device records and exceed the period of the infectious disease latency period are deleted.

5. A system for tracking infectious disease close contacts by bluetooth, comprising: the system comprises a mobile phone terminal close contact tracking APP, a personnel contact information database server, a close contact person management server, a notification push server, PC end equipment, a firewall and a router, wherein the close contact person management server and the PC end equipment are connected through a local area network, and each server and the PC end equipment are connected with an external network through the router.

6. The system for tracking infectious disease close contacts by bluetooth as claimed in claim 5, wherein: the personnel contact information database server, the close contact management server and the notification push server are independently arranged.

7. The system for tracking infectious disease close contacts by bluetooth as claimed in claim 5, wherein: the personnel contact information database server, the close contact management server and the push server are informed to use the virtual machine.

8. The system for tracking infectious disease close contacts by bluetooth as claimed in claim 5, wherein: the system also comprises a health code management system interconnection interaction module, and the system is interconnected with the health code management system through the module.

9. The system for tracking infectious disease close contacts by bluetooth as claimed in claim 5, wherein: the system also comprises a real-name authentication software module, and the system is connected with a mobile phone operator user database server through the real-name authentication software module and performs query operation to acquire mobile phone user real-name authentication information.

10. The system for tracking infectious disease close contacts by bluetooth as claimed in claim 5, wherein: the system is deployed at disease control centers of different administrative regions simultaneously, and data are shared among the systems through a network.