CN111031279A - Monitoring platform-based simulation front-end equipment point location construction method and system - Google Patents

Abstract

The invention provides a monitoring platform-based method and a monitoring platform-based system for building a point location of analog front-end equipment, which are applied to the technical field of building of the point location of the equipment, wherein the system comprises the following steps: the server comprises an analog front-end equipment point location and an analog front-end equipment program corresponding to the analog front-end equipment point location, is used for sending video data to the analog front-end equipment point location after analyzing and processing a video file, and is arranged on the monitoring platform; and the client is used for sending a video flow request to the monitoring platform, receiving the video data sent by the monitoring platform, and decoding and displaying the video data. By applying the embodiment of the invention, the video streaming function of the front-end equipment point location can be simulated through the monitoring platform, a stable real-time video file can be provided, and the client side can conveniently test and debug various playing functions, thereby solving the problem that the working efficiency is influenced because the client side does not have the test condition on the project site.

Description

Monitoring platform-based simulation front-end equipment point location construction method and system

Technical Field

The invention relates to the technical field of building processing of simulation front-end equipment point locations, in particular to a monitoring platform-based simulation front-end equipment point location building method and system.

Background

The video monitoring is based on a video monitoring platform, and is connected with each monitoring device through the monitoring platform, for example, video data of each camera connected with the monitoring platform can be checked through the monitoring platform, and then data transmission between a client and the monitoring platform is realized, so that real-time monitoring of videos or playback of historical videos at the client is realized.

In the development process of an actual project, in the process of playing and developing a client video, video data is needed to be debugged and developed depending on the video data, however, in most cases, a project site does not have a field debugging environment, and even if a test environment is started, the problem of low working efficiency can be caused because the test cannot be performed in time due to the lack of testers and other factors.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, provides a monitoring platform-based simulation front-end equipment point location building method and a monitoring platform-based simulation front-end equipment point location building system, and aims to simulate the video streaming function of the front-end equipment point location through the monitoring platform, provide stable real-time video streaming, facilitate the testing and debugging of various playing functions of a client, and further solve the problem that the working efficiency is influenced because no testing condition exists in a project site.

The invention is realized by the following steps:

the embodiment of the invention discloses a monitoring platform-based simulation front-end equipment point location construction system, which is characterized by comprising the following components:

the server comprises an analog front-end equipment point location and an analog front-end equipment program corresponding to the analog front-end equipment point location, is used for sending video data to the analog front-end equipment point location after analyzing and processing a video file, and is arranged on the monitoring platform;

and the client is used for sending a video stream request to the monitoring platform, receiving the video data sent by the monitoring platform, and decoding and displaying the video data.

In one implementation, the monitoring platform is further configured to:

configuring point location information of analog front-end equipment, wherein the point location information at least comprises the following steps: configuring the name of a point location of analog front-end equipment, configuring an equipment ID of the point location of the analog front-end equipment, and an IP address corresponding to the point location of the analog front-end equipment and an IP address of a platform where the point location of the analog front-end equipment is located;

deploying an analog front-end equipment program according to a video data transmission rule;

and starting the program of the analog front-end equipment to analyze the video data in the video file according to the video data transmission rule, and sending the video data to the point location of the analog front-end equipment after sub-packet packaging processing.

In one implementation, the analog front end device program is configured to:

the format of the video file is as follows: any one of MP4, AVI and AVX, analyzing the video file to obtain the frame length and the frame content of the video image;

or when the video file is in an ASF format or a packet capturing file, analyzing the video file to obtain the RTP packet length and the RTP packet content.

In addition, the invention also discloses a monitoring platform-based simulation front-end equipment point location construction method, which comprises the following steps:

configuring point location information of analog front-end equipment, wherein the point location information at least comprises the following steps: configuring the name of a point location of an analog front-end device, configuring a device ID of the point location of the analog front-end device, an IP address corresponding to the point location of the analog front-end device and an IP address of a platform where the point location of the analog front-end device is located, wherein the point location of the analog front-end device is arranged on a monitoring platform;

deploying an analog front-end equipment program file according to a video data transmission rule, wherein the analog front-end equipment program and the monitoring platform are deployed on the same server;

according to the video data transmission rule, starting the program of the analog front-end equipment to analyze the video data in the video file, performing sub-packet packaging processing, and then sending the video data to the point location of the analog front-end equipment;

and after the analog front-end equipment point location receives a client video data request, sending the video data to a corresponding client.

In one implementation, the step of obtaining the video file includes:

determining a point to be tested;

and acquiring a video file to be reproduced based on the determined point to be tested.

In one implementation, the step of starting the analog front-end device program to analyze video data in a video file, performing packet encapsulation processing, and then sending the video data to the analog front-end device point location includes:

starting the analog front-end equipment program to analyze video frame data in the video file and performing packet packaging processing on each frame of video data according to an RTP (real-time transport protocol) format;

and sending the data packets subjected to packet packaging to the analog front-end equipment point location according to a preset rate.

In one implementation, the step of parsing the video frame data in the video file includes:

the format of the video file is as follows: any one of MP4, AVI and AVX, analyzing the video file to obtain the frame length and the frame content of the video image;

or when the video file is in an ASF format or a packet capturing file, analyzing the video file to obtain the RTP packet length and the RTP packet content.

Firstly, simulating an actual front-end equipment point location through the simulation front-end equipment point location in the monitoring platform, then analyzing a video file through a simulation front-end equipment program corresponding to the simulation front-end equipment point location, sending the video file to the simulation front-end equipment point location, and sending video data through the simulation front-end equipment point location; and performing video display through the client. Therefore, by applying the embodiment of the invention, the video playing scene of the monitoring platform can be reproduced actually, so that the video playing scene can be reproduced without using project sites, and the problem analysis can be performed through the video display of the client. Therefore, the embodiment of the invention can simulate the video streaming function of the front-end equipment point through the monitoring platform, can provide stable real-time video streaming, and is convenient for the client to test and debug various playing functions, thereby solving the problem that the working efficiency is influenced because the client does not have testing conditions on the project site.

Drawings

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

Fig. 1 is a schematic flow chart of a monitoring platform-based simulation front-end device site location construction method according to an embodiment of the present invention;

fig. 2 is another schematic flow chart of a monitoring platform-based simulation front-end device site location construction method according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a monitoring platform-based simulation front-end device site location construction system according to an embodiment of the present invention.

Detailed Description

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, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a point location construction method for an analog front-end device based on a monitoring platform provided by the embodiment of the invention includes:

and S11, newly building a simulation front-end equipment point location on the network management of the monitoring platform.

It should be noted that the video front-end point may be a video monitoring point installed in a system such as a public security system, and the arrangement of the monitoring point is realized by a monitoring camera. The monitoring platform is a management platform used for being connected with each analog front-end equipment point location, the analog front-end equipment point locations are newly built on a network manager, and specifically, the number of the analog front-end equipment point locations can be multiple.

And S12, configuring the program file of the analog front-end equipment corresponding to the analog front-end equipment point location on the server of the monitoring platform.

It can be understood that the program file of the analog front-end device is an executable program file configured on the server where the network manager is located and corresponding to the point location of the analog front-end device;

and establishing and configuring point location equipment of the analog front-end equipment and a network information file under a folder in which the program file of the analog front-end equipment is positioned, and starting the program of the analog front-end equipment to simulate various functions of the actual front-end equipment.

And S13, configuring the simulation front-end equipment point location and starting the simulation front-end equipment program corresponding to the simulation front-end equipment point location so as to simulate the function of the actual front-end camera equipment.

Specifically, in practical application, according to the type of the front-end device to be simulated, a simulated front-end device point location is newly created on the network manager of the monitoring platform, and relevant point location information is configured, including the name of the simulated front-end device point location, the device ID of the simulated front-end, the IP address of the monitoring platform where the simulated front-end device point location is located, and the device IP of the simulated front-end device point location.

For example, when the front-end equipment type to be simulated is a national standard protocol access monitoring platform, the equipment ID type of the analog front-end equipment point location is configured as a national standard type; or when the front-end equipment type to be simulated is the global eye protocol access monitoring platform, configuring the equipment ID type of the simulation front-end equipment point to be the global eye type.

In one embodiment, configuring the monitoring platform IP and the device IP where the front-end device point location information is simulated according to the type of the front-end device to be simulated specifically includes:

the monitoring platform IP is the IP address of the platform accessed by the equipment, and the equipment IP of the analog front-end equipment point location is consistent with the accessed platform IP address.

And aiming at the point location, configuring an equipment program file corresponding to the point location of the analog front-end equipment on a server where the network manager is located. The device program has at least the functions of: analyzing video frame data in the video file, and then performing packet rtp packaging processing on each frame of video data according to an rtp protocol format; in a test environment, sending an rtp packet to a monitoring platform according to the data volume of 25 frames per second;

specifically, the video files may include MP4, AVI, AVX, ASF format files, and scrapbook saved files. The parsing of the video file includes: when the video file is in MP4, AVI and AVX format, the analyzed data is the frame length and the frame content; when the video file is in an ASF format or a packet capturing file, the analyzed data is the RTP packet length and the RTP packet content.

After the information is configured in the configuration file, the simulation front-end equipment program is started, the actual front-end equipment can be simulated to send the stream to the monitoring platform, then the client side applies for the point location code stream to the monitoring platform or the server, and then framing decoding is carried out, so that the point location video can be played.

The invention provides a method and a system for building a point location of analog front-end equipment based on a monitoring platform. By applying the embodiment of the invention, the playing situation of the actual field monitoring video can be accurately simulated, the aim of simulating the point location real-time playing situation of the simulation video monitoring platform can be achieved, the rapid positioning and problem solving under the test environment are convenient, the working efficiency is improved, the issuing and various functions of the point location of the front-end equipment can be accurately simulated, the stable real-time stream and the video stream can be provided, the test and debugging of various playing functions of the client side are convenient, and the time and the labor are saved.

Fig. 2 shows a flowchart of a monitoring platform-based simulation front-end device site location construction method according to an embodiment of the present invention. As shown in fig. 2, the method mainly includes:

and S21, establishing a new analog front-end equipment point location on the network management of the monitoring platform.

In this embodiment, the newly created simulation point location creates a simulation front-end device point location on the network manager of the monitoring platform according to the type of the front-end device to be simulated, and configures related point location information, which includes the name of the simulation front-end device point location, the device ID of the simulation front-end device point location, the IP of the monitoring platform where the simulation front-end device point location is located, and the device IP of the simulation front-end device point location. For example, in this embodiment, the name of the analog front-end device point location is analog device 1, the device type of the analog front-end device point location is a national standard type, and the corresponding generated configuration ID is 32040101041323628378, the platform IP is 10.1.111.143, the device IP is 10.1.111.143, and the platform IP is the same as the platform IP.

And S22, configuring and operating the program file of the analog front-end equipment on the server where the network manager is positioned, processing various original video files through the program of the analog front-end equipment, converting the original video files into RTP packets, and sending the RTP packets.

It should be noted that, in this embodiment, an analog front-end device program is deployed on a server where a network manager of a monitoring platform is located, and various original video files are processed and converted into RTP packets to be sent, and in specific implementation, the method may be implemented through the following steps: analyzing video frame data in the video file, and then performing packet rtp packaging processing on each frame of video data according to an rtp protocol format; in a test environment, sending the rtp packet to a monitoring platform according to the data volume of 25 frames per second; analyzing video frame data in a video file, specifically comprising: when the video file is in MP4, AVI and AVX format, the analyzed data is the frame length and the frame content; when the video file is in an ASF format or a packet capturing file, the analyzed data is the RTP packet length and the RTP packet content.

And S23, configuring point location related information of the analog front-end equipment and starting the program file of the analog front-end equipment to simulate various functions of the actual front-end equipment.

The process is the same as step S13, and the embodiment of the present invention is not described in detail.

And S24, logging in the client, applying for the bit position code stream of the analog front-end equipment to the monitoring platform, and decoding and playing.

As shown in fig. 3, an analog front-end device point location construction system based on a monitoring platform provided in an embodiment of the present invention includes:

the server 31 includes an analog front-end device point location 311 and an analog front-end device program 312 corresponding to the analog front-end device point location 311, and is configured to send video data to the analog front-end device point location 311 after performing parsing processing on a video file, and send the video data via the analog front-end device point location 311, where the analog front-end device point location 311 is disposed on the monitoring platform 310;

the client 32 is configured to send a video traffic request to the monitoring platform 310, receive video data sent by the monitoring platform 310, and decode and display the video data.

Specifically, the monitoring platform 310 is further configured to:

configuring the analog front-end device point location 311 information, wherein the configuration at least includes: configuring the name of the analog front-end device point location 311, configuring the device ID of the analog front-end device point location 311, and the IP address corresponding to the analog front-end device point location 311 and the IP address of the platform where the analog front-end device point location 311 is located;

deploying an analog front-end device program 312 according to the video data transmission rules;

according to the video data transmission rule, the analog front-end device program 312 is started to analyze the video data in the video file, and the video data is sent to the analog front-end device point location 311 after being subjected to packet packaging processing.

Specifically, the analog front-end device program 312 is configured to:

the format of the video file is as follows: any one of MP4, AVI and AVX, analyzing the video file to obtain the frame length and the frame content of the video image;

or when the video file is in an ASF format or a packet capturing file, analyzing the video file to obtain the RTP packet length and the RTP packet content.

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, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. The utility model provides a simulation front end equipment point location system of putting up based on monitor platform which characterized in that, the system includes:

the server comprises an analog front-end equipment point location and an analog front-end equipment program corresponding to the analog front-end equipment point location, is used for sending video data to the analog front-end equipment point location after analyzing and processing a video file, and is arranged on the monitoring platform;

and the client is used for sending a video stream request to the monitoring platform, receiving the video data sent by the monitoring platform, and decoding and displaying the video data.

2. The monitoring platform-based simulation front-end equipment site location construction system according to claim 1, wherein the monitoring platform is further configured to:

configuring point location information of analog front-end equipment, wherein the point location information at least comprises the following steps: configuring the name of a point location of analog front-end equipment, configuring an equipment ID of the point location of the analog front-end equipment, and an IP address corresponding to the point location of the analog front-end equipment and an IP address of a platform where the point location of the analog front-end equipment is located;

deploying an analog front-end equipment program according to a video data transmission rule;

and starting the program of the analog front-end equipment to analyze the video data in the video file according to the video data transmission rule, and sending the video data to the point location of the analog front-end equipment after sub-packet packaging processing.

3. The monitoring platform-based point location construction system for the analog front-end equipment according to claim 1, wherein the analog front-end equipment program is configured to:

the format of the video file is as follows: any one of MP4, AVI and AVX, analyzing the video file to obtain the frame length and the frame content of the video image;

or when the video file is in an ASF format or a packet capturing file, analyzing the video file to obtain the RTP packet length and the RTP packet content.

4. A monitoring platform-based simulation front-end equipment point location construction method is characterized by comprising the following steps:

configuring point location information of analog front-end equipment, wherein the point location information at least comprises the following steps: configuring the name of a point location of an analog front-end device, configuring a device ID of the point location of the analog front-end device, an IP address corresponding to the point location of the analog front-end device and an IP address of a platform where the point location of the analog front-end device is located, wherein the point location of the analog front-end device is arranged on a monitoring platform;

deploying an analog front-end equipment program according to a video data transmission rule, wherein the analog front-end equipment program and the monitoring platform are deployed on the same server;

according to the video data transmission rule, starting the program file of the analog front-end equipment to analyze the video data in the video file, performing sub-packet packaging processing, and then sending the video data to the point location of the analog front-end equipment;

and after the analog front-end equipment point location receives a client video data request, sending the video data to a corresponding client.

5. The monitoring platform-based simulation front-end equipment point location construction method according to claim 4, wherein the video file acquisition step comprises:

determining a point to be tested;

and acquiring a video file to be reproduced based on the determined point to be tested.

6. The monitoring platform-based point location construction method for the analog front-end equipment according to any one of claims 4 to 5, wherein the step of starting the program of the analog front-end equipment to analyze video data in a video file, performing packet packaging processing, and then sending the video data to the point location of the analog front-end equipment comprises the steps of:

starting the analog front-end equipment program to analyze video frame data in the video file and performing packet packaging processing on each frame of video data according to an RTP (real-time transport protocol) format;

and sending the data packets subjected to packet packaging to the analog front-end equipment point location according to a preset rate.

7. The monitoring platform-based point location construction method for the analog front-end equipment, according to claim 6, wherein the step of analyzing video frame data in the video file comprises:

the format of the video file is as follows: any one of MP4, AVI and AVX, analyzing the video file to obtain the frame length and the frame content of the video image;

or when the video file is in an ASF format or a packet capturing file, analyzing the video file to obtain the RTP packet length and the RTP packet content.

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