Method for limiting use area of monitoring equipment
Technical Field
The invention belongs to the field of security monitoring equipment, and relates to a method for limiting a use area of monitoring equipment.
Background
In modern society, monitoring equipment is applied to various aspects of social production and life in a large number, and makes a great contribution to security and protection career. Typical monitoring devices include NVR (network video recorder) and IPC (network camera). Both NVR and IPC are general-purpose embedded devices and do not have the capability of region identification. This presents a problem: the NVR and the IPC are in a channel sales mode of multi-level agents, different sales strategies are used in different provinces or regions, price difference exists, and accordingly the private goods mixing among agents in different regions can cause serious disturbance to the sales order of companies, product strategy and sales strategy of the companies can be disturbed, and economic loss is caused to production and sales units of the NVR and the IPC. Based on the real problem, a method for limiting the use area of the monitoring equipment is conceived and developed, and if the NVR or the IPC is not used in a specified region, the cloud video communication function cannot be used, namely, the full functions of the NVR or the IPC cannot be fully used and enjoyed.
Disclosure of Invention
In order to make up for the defects of the prior art, the invention provides the method for limiting the use area of the monitoring equipment, which has a simple structure and is convenient to use.
The invention is realized by the following technical scheme:
the method for limiting the use area of the monitoring equipment is characterized in that: the method sequentially comprises the following steps:
(1) before each device leaves a factory, registration information needs to be input into a registration server; the background program of the registration server automatically determines the permitted area of the equipment according to the ID of the target agent and actively informs the management server; the management server sets the operating state of the device to WAIT.
(2) After the agent takes the equipment, the agent information needs to be input into a management server through a mobile phone APP developed for the agent; if the agent information is not recorded by the agent, the management server sets the working state of the equipment to be WAIT (waiting state); after the agent information is recorded, the management server actively interacts with the registration server, and the working state of the equipment is further determined by comparing the registration information recorded by the registration server with the agent information recorded by the management server.
(3) After the equipment is sold, an installer inputs the information of the final user into a management server through a mobile phone APP developed for the installer; if the installer does not enter the information of the end user, the management server determines and sets the working state of the equipment by combining the working state of the previous step; and after the final user information is recorded, determining the final working state of the equipment by comparing the registration information recorded by the registration server with the final user information recorded by the management server and combining the working state of the last step.
(4) After the equipment is powered on, the equipment interacts with the network function server, if the network function server returns to be offline, the equipment can be started normally, but all network functions cannot be used; if the network function server returns to the online state, the equipment interacts with the management server to obtain the working state.
In the step (4), there are 3 kinds of working states, which are WAIT state, NO state and YES state, respectively, and different operations are executed according to different states.
The registration information in the step (1) comprises a cloud visual communication ID and a target agent ID.
And (3) the agent information in the step (2) comprises the cloud visual communication ID and the actual agent ID of the equipment.
And (4) the final user information in the step (3) comprises a use area ID, a mobile phone number and a current GPS positioning position.
The method has the advantages that after the software of the monitoring equipment is realized, the purpose of limiting the use area of the monitoring equipment can be effectively realized through actual tests. The method effectively prevents the goods mixing behavior, reduces the loss of companies, improves the accuracy rate of regional judgment and lightens the customer service pressure.
Drawings
Fig. 1 is a schematic diagram of an information verification process of the present invention, and fig. 2 is a process diagram of device usage.
Detailed Description
The attached drawing is an embodiment of the invention.
The NVR is used as an example to illustrate that the principle of IPC or other network devices is consistent with NVR.
Herein, the management server adopts an operation and maintenance server, and the network function server adopts a cloud video server.
The method for limiting the use area of the monitoring equipment sequentially comprises the following steps:
1. before each finished product NVR leaves a factory, registration information (cloud visibility ID, target agent ID and the like) needs to be recorded into a registration server (maintained by a special department of a company). The register server background program automatically determines the permitted area of the NVR according to the target agent ID and actively informs the operation and maintenance server (maintained by a special department of a company). The operation and maintenance server sets the working state of the NVR to WAIT (waiting state).
2. After the agent receives the NVR, the agent information (the cloud visual communication ID, the actual agent ID and the like of the NVR) needs to be input into the operation and maintenance server through a mobile phone APP (developed by a company for the agent specially). If the agent information is not recorded by the agent, the operation and maintenance server sets the working state of the NVR to be WAIT (waiting state); after the agent information is recorded, the operation and maintenance server actively interacts with the registration server, and the working state of the NVR is further determined by comparing the registration information recorded by the registration server with the agent information recorded by the operation and maintenance server.
3. After the NVR is sold, the installer enters the end user information (using area ID, cell phone number, current GPS, etc.) into the operation and maintenance server through the cell phone APP (developed by the company specifically for the installer). And if the installer does not enter the information of the end user, the operation and maintenance server determines and sets the working state of the NVR according to the working state of the last step. And after the final user information is recorded, determining the final working state of the NVR by comparing the registration information recorded by the registration server with the final user information recorded by the operation and maintenance server and combining the working state of the last step.
After the NVR is electrified, the NVR interacts with the cloud video server, if the cloud video server returns to be offline, the NVR can be started normally, and all cloud video functions cannot be used. And if the cloud video server returns to be on-line, the NVR interacts with the operation and maintenance server to obtain the working state. The obtained operation states are 3, which are WAIT (waiting state), NO (non-operating state) and YES (operating state), respectively, and different operations are performed according to the different states.