CN-122001653-A - Intelligent equipment use management and control method based on geographic position

Abstract

The invention relates to a geographical position-based intelligent equipment use management and control method, which consists of a server, a client, a position information collector, a personnel authentication module, a permission strategy interaction module and a strategy management seven-core module. The server stores information and strategies and is connected with the client. The client is installed on the equipment end to execute the instruction. The position information collector acquires three-dimensional geographic data. And the personnel authentication module performs identity authentication. The authority policy interaction module supports network issuing and offline synchronization of policies. And the policy management module makes a decision according to the geographic position and the authority policy. The invention realizes the fine and strong management and control of equipment startup, use, personnel and places, and remarkably improves the safety management level and asset protection capability of high-value or confidential equipment.

Inventors

• HU CHANGSHENG
• HU RUNDONG
• HU LIHU

Assignees

• 福州市必达网络科技有限公司

Dates

Publication Date

20260508

Application Date

20260209

Claims (10)

1. 1. The utility model provides an intelligent device uses management and control method based on geographical position, comprises six major core parts of server (1), customer end (2), location information collector (3), personnel authentication module (4), authority strategy interaction module (5) and policy management module (6), its characterized in that: The server (1) is connected with the client (2) through a first communication channel (7) and transmits the equipment authority policy information; The client (2) is connected with the position information collector (3) through a second communication channel (8) to acquire three-dimensional geographic space data of the equipment; The position information collector (3) is connected with the strategy management module (6) through a third communication channel (9) and is used for transmitting longitude, latitude and altitude data; the personnel authentication module (4) is connected with the client (2) through a fourth communication channel (10) and performs personnel identity authentication and authentication; The authority policy interaction module (5) is connected with the server (1) through a fifth communication channel (11) and supports network issuing and offline synchronization of the authority policies; the policy management module (6) is connected with the client (2) through a sixth communication channel (12) and is used for controlling the starting, the use, the operators and the position rights of the intelligent equipment based on the three-dimensional geographic space data and the rights policy.
2. 2. A server (1) as claimed in claim 1, in charge of storing device information and rights policies, characterized by: The device comprises a device information storage unit (13) and a permission policy storage unit (14), wherein the device information storage unit (13) is directly connected with the permission policy storage unit (14); The permission policy storage unit (14) transmits device permission information containing a geographic position white list to the client (2) through the first communication channel (7).
3. 3. A client (2) as claimed in claim 1, in charge of executing the control instructions at the smart device side, characterized in that: Comprises a strategy execution unit (15) and a device control unit (16), wherein the strategy execution unit (15) is directly connected with the device control unit (16); The strategy execution unit (15) receives three-dimensional geographic space data of the position information collector (3) through a second communication channel (8); The device control unit (16) controls the starting, using and maintenance operations of the intelligent device based on the received authority policy.
4. 4. The location information collector (3) of claim 1, responsible for collecting three-dimensional geospatial data of an intelligent device, characterized by: comprises a longitude acquisition unit (17), a latitude acquisition unit (18) and a height acquisition unit (19); the longitude acquisition unit (17), the latitude acquisition unit (18) and the altitude acquisition unit (19) are mutually connected and transmit data to the policy management module (6) through the third communication channel (9).
5. 5. The person authentication module (4) according to claim 1, responsible for performing identity authentication and rights authentication of an operator, characterized in that: The authentication system comprises an identity authentication unit (20) and a right authentication unit (21), wherein the identity authentication unit (20) is directly connected with the right authentication unit (21); the identity authentication unit (20) supports account passwords and human body biological feature authentication; the right authentication unit (21) is connected with the client (2) through a fourth communication channel (10) and transmits an authentication result.
6. 6. The rights policy interaction module (5) of claim 1, responsible for transmission and synchronization of rights policies, characterized by: The system comprises a network issuing unit (22) and an offline synchronization unit (23), wherein the network issuing unit (22) is directly connected with the offline synchronization unit (23); the network issuing unit (22) and the offline synchronization unit (23) are connected with the server (1) through a fifth communication channel (11) to realize online issuing and offline synchronization of the authority policies.
7. 7. Policy management module (6) according to claim 1, responsible for making comprehensive management decisions based on geographical location and rights policies, characterized in that: comprises a geographic position analysis unit (24) and a right decision unit (25), wherein the geographic position analysis unit (24) is directly connected with the right decision unit (25); The geographic position analysis unit (24) receives three-dimensional geographic space data of the position information collector (3) through a third communication channel (9); the authority decision unit (25) issues a management instruction to the client (2) through the sixth communication channel (12).
8. 8. A policy enforcement unit (15) according to claim 3, responsible for enforcing the received rights policy at the smart device side, characterized by: positioning data of the position information collector (3) is received through a second communication channel (8), and a control operation is performed in cooperation with the device control unit (16).
9. 9. Longitude acquisition unit (17) as claimed in claim 4, responsible for acquiring longitude coordinate information of the device, characterized by: and the third communication channel (9) is connected with the policy management module (6) to transmit longitude data.
10. 10. The network issuing unit (22) according to claim 6, responsible for issuing entitlement policies to clients (2) via a wired or wireless network, characterized in that: And the server (1) is connected with the fifth communication channel (11) to acquire the latest authority strategy and perform network issuing.

Description

Intelligent equipment use management and control method based on geographic position Technical Field The invention relates to the technical field of intelligent equipment safety control, in particular to a geographical position-based intelligent equipment use control method. Background With the rapid development of the technologies of the internet of things, the mobile internet and the intelligent terminal, the intelligent equipment is widely applied to various fields such as industrial production, public service, security monitoring and personal consumption. These devices often have high value or process sensitive data, and if the use process lacks effective supervision, risks such as misuse, illegal use, data leakage, asset loss and the like are easily caused. In the practical application scene, especially under the conditions of huge equipment quantity, wide distribution and complex users, how to ensure that the intelligent equipment can only be used legally and reasonably at authorized places by authorized personnel according to authorized purposes becomes a technical and management problem to be solved urgently. The traditional equipment management mode mainly depends on physical locks, personnel on-site supervision or simple software password login, and the methods are extensive in management, low in efficiency, incapable of carrying out fine dynamic management and control on the use geographical position of equipment, and difficult to adapt to the use requirements of modern distributed and mobile equipment. In view of the above problems, some technical solutions for device management and control in combination with location information have appeared in recent years. According to the partial scheme, the GPS module is integrated at the equipment end, the geographical position information of the equipment is reported to the management platform, an administrator can check the equipment distribution at the platform side, and an electronic fence based on two-dimensional longitude and latitude is arranged. When the equipment enters and exits the fence area, the platform can send out alarm information. The scheme realizes the monitoring and out-of-range alarming of the equipment position, but the control means is relatively passive, is usually limited to retrospective tracing and alarming, and lacks direct, real-time and forced intervention capability on the equipment use authority (such as starting up and function starting). Other schemes attempt to combine identity authentication with location information, requiring the user to verify that the device is currently located in a preset list of trusted locations, as well as by password or biometric authentication, when using the device. However, most of such schemes adopt two-dimensional geographic position judgment, the distinction of the height information is insufficient, and management and control holes easily appear in multi-layer buildings or complex three-dimensional spaces. In addition, the updating and issuing of the authority strategy is seriously dependent on real-time communication of a network, and the management and control strategy of the equipment cannot be timely synchronized and validated in an offline environment with poor or interrupted network signals, so that the availability and reliability of the system are affected. In summary, the existing location-based device management and control technology has the problems of single management and control dimension, lag management and control actions, policy failure in offline scenes, and the like. In view of this, the present invention proposes a method for integrating three-dimensional geospatial data, supporting multi-mode policy synchronization, and enabling real-time mandatory control of devices from power-on to use of the full flow. The method can effectively ensure that the intelligent equipment is safely used under strict geographic position and personnel authority constraint, improves the management level and the safety protection capability of valuable or confidential assets, and has important application value in the fields of intelligent manufacturing, public safety, equipment management in confidential places and the like. Disclosure of Invention In order to solve the related problems, the invention provides an intelligent device use control method based on geographic positions. The intelligent equipment based on the geographic position is realized by a management and control method, and comprises six core parts of a server side (1), a client side (2), a position information collector (3), a personnel authentication module (4), a right strategy interaction module (5) and a strategy management module (6), wherein the server side (1) is connected with the client side (2) through a first communication channel (7) to transmit equipment right strategy information, the client side (2) is connected with the position information collector (3) through a second communication channel (8) to acq