CN112188244A

CN112188244A - Front-end camera real-time video-on-demand method and device and electronic equipment

Info

Publication number: CN112188244A
Application number: CN202011063703.0A
Authority: CN
Inventors: 王洵
Original assignee: Wuhan Zhongke Tongda High New Technology Co Ltd
Current assignee: Wuhan Zhongke Tongda High New Technology Co Ltd
Priority date: 2020-09-30
Filing date: 2020-09-30
Publication date: 2021-01-05
Anticipated expiration: 2040-09-30
Also published as: CN112188244B

Abstract

The application provides a front-end camera real-time video on demand method and device, electronic equipment, based on the method, firstly sending out a http on demand request on a demand selection page of a traffic police terminal based on an http protocol, converting the http on demand request into a sip on demand request which can be identified by a front-end camera, synchronously generating state marks for the http on demand request and the sip on demand request, then sending the sip on demand request to a target camera through a 5G base station, receiving a sip on demand response returned by the target camera through the 5G base station, then synchronously updating mark contents of the sip state marks and the http state marks, generating the http response and returning the http on demand response to the traffic police terminal when the mark contents are that the request is finished, sending real-time video uploaded by the target camera to the target playing equipment based on a playing address of the target playing equipment, the traffic police terminal can finish the whole on demand process only on a web browser or a platform without calling special SDK software, thus ensuring safety.

Description

Front-end camera real-time video-on-demand method and device and electronic equipment

Technical Field

The application relates to the field of intelligent traffic, in particular to a front-end camera real-time video-on-demand method and device and electronic equipment.

Background

At present, when most security cameras on the market carry out real-time video on demand of a front-end camera, in order to simplify the on demand process, a front-end camera real-time on demand signaling is generally packaged into a signaling in an SDK (Software Development Kit) format, then a traffic police system calls the SDK to carry out on demand, the SDK is developed and manufactured by an external manufacturer, a real-time video shot by the front-end camera can be acquired by personnel in a non-traffic police system, and the real-time video on demand mode has some potential safety hazards.

Therefore, the existing front-end camera real-time video-on-demand method has the technical problem of low safety, and needs to be improved.

Content of application

The embodiment of the application provides a method and a device for video-on-demand of a front-end camera in real time and electronic equipment, which are used for improving the safety of the video-on-demand process of the front-end camera.

In order to solve the above technical problem, an embodiment of the present application provides the following technical solutions:

the application provides a real-time video on demand method of front end camera is applicable to wisdom traffic system, wisdom traffic system includes front end camera, data server, 5G basic station and traffic police terminal, the front end camera is connected based on the sip agreement 5G basic station, the traffic police terminal inserts based on the http protocol data server, the real-time video on demand method of front end camera is applied to data server, the real-time video on demand method of front end camera includes:

receiving an http real-time video on demand request sent by the traffic police terminal based on an http protocol; the http real-time video on demand request comprises that after the traffic police terminal receives a trigger instruction of on-demand real-time video, an on-demand selection page comprising a playing equipment selection control and a front-end camera selection control is displayed, target playing equipment is determined according to selection operation aiming at the playing equipment selection control, a target camera is determined according to selection operation aiming at the front-end camera selection control, and an http real-time video on demand request conforming to an http protocol is generated according to a playing address of the target playing equipment and a target camera identification of the target camera;

generating an sip real-time video-on-demand request corresponding to the http real-time video-on-demand request according to the target camera identification, generating an http state identification corresponding to the http real-time video-on-demand request, synchronizing the sip state identification corresponding to the sip real-time video-on-demand request and identification contents of the http state identification and the sip state identification in real time, wherein the identification contents comprise an on-demand request completion state;

according to the target camera identification, a target camera and a target 5G base station corresponding to the target camera are determined, long connection between the target camera and the target 5G base station is determined, the sip real-time video on demand request is sent to the target 5G base station through the long connection, so that the target 5G base station is controlled to send the sip real-time video on demand request to the target camera through a sip special line based on a sip protocol, and a sip processing signaling returned by the target camera through the sip special line based on the sip protocol is received;

receiving the sip processing signaling returned by the target 5G base station through the long connection, generating an sip real-time video on demand response according to the sip processing signaling, and synchronously updating the identification contents of the sip state identification and the http state identification according to the content of the sip real-time video on demand response;

when the identification content of the http state identification is that the video-on-demand request is completed, generating an http real-time video-on-demand response corresponding to the http state identification, and returning the http real-time video-on-demand response to the traffic police terminal based on an http protocol according to the terminal identification;

and sending the real-time video uploaded by the target camera to the target playing equipment according to the playing address.

Simultaneously, this application embodiment still provides a real-time video on demand device of front end camera, is applicable to wisdom traffic system, wisdom traffic system includes front end camera, data server, 5G basic station and traffic police terminal, the front end camera is connected based on the sip agreement 5G basic station, the traffic police terminal inserts based on the http protocol data server, the real-time video on demand device of front end camera sets up in the data server, the real-time video on demand device of front end camera includes:

the receiving module is used for receiving an http real-time video on demand request sent by the traffic police terminal based on an http protocol; the http real-time video on demand request comprises that after the traffic police terminal receives a trigger instruction of on-demand real-time video, an on-demand selection page comprising a playing equipment selection control and a front-end camera selection control is displayed, target playing equipment is determined according to selection operation aiming at the playing equipment selection control, a target camera is determined according to selection operation aiming at the front-end camera selection control, and an http real-time video on demand request conforming to an http protocol is generated according to a playing address of the target playing equipment and a target camera identification of the target camera;

the first synchronization module is used for generating an sip real-time video-on-demand request corresponding to the http real-time video-on-demand request according to the target camera identification, generating an http state identification corresponding to the http real-time video-on-demand request, synchronizing the http state identification and the sip state identification in real time, and enabling the identification content to comprise an on-demand request completion state;

the first sending module is used for determining a target camera and a target 5G base station corresponding to the target camera according to the target camera identification, determining long connection between the target camera and the target 5G base station, sending the sip real-time video on demand request to the target 5G base station through the long connection, controlling the target 5G base station to send the sip real-time video on demand request to the target camera through a sip special line based on a sip protocol, and receiving a sip processing signaling returned by the target camera through the sip special line based on the sip protocol;

a second synchronization module, configured to receive the sip processing signaling returned by the target 5G base station through the long connection, generate an sip real-time video-on-demand response according to the sip processing signaling, and synchronously update the identifier contents of the sip state identifier and the http state identifier according to the content of the sip real-time video-on-demand response;

the return module is used for generating an http real-time video on demand response corresponding to the http state identifier when the identifier content of the http state identifier is that the on demand request is completed, and returning the http real-time video on demand response to the traffic police terminal based on an http protocol according to the terminal identifier;

and the second sending module is used for sending the real-time video uploaded by the target camera to the target playing equipment according to the playing address.

The application also provides an electronic device comprising a memory and a processor; the memory stores an application program, and the processor is configured to run the application program in the memory to perform any operation in the front-end camera real-time video-on-demand method.

Has the advantages that: the embodiment of the application provides a front-end camera real-time video on demand method, a device and electronic equipment, which are suitable for a smart traffic system, wherein the smart traffic system comprises a front-end camera, a data server, a 5G base station and a traffic police terminal, the front-end camera is connected with the 5G base station based on a sip protocol, the traffic police terminal accesses the data server based on a http protocol, and the real-time video on demand method is applied to the data server. The operation is simple, the whole on-demand process traffic police terminal can be completed only on a web browser or a platform, and special SDK software is not required to be called, so that the safety is ensured; in addition, the information transmission is carried out through the 5G base station, the speed is high, and the convenience for acquiring the traffic data and the illegal data is improved. In the protocol conversion process, the identification contents of the sip state identification and the http state identification are synchronized, so that the generated sip real-time video on demand response can be converted into the http real-time video on demand response in time, and the response returning speed is improved.

Drawings

The technical solution and other advantages of the present application will become apparent from the detailed description of the embodiments of the present application with reference to the accompanying drawings.

Fig. 1 is a scene schematic diagram of a front-end camera real-time video-on-demand system according to an embodiment of the present application.

Fig. 2 is a schematic flow chart of a front-end camera real-time video-on-demand method according to an embodiment of the present application.

Fig. 3 is a schematic diagram of a click-to-play selection page in a traffic police terminal in the front-end camera real-time video-on-demand method according to the embodiment of the present application.

Fig. 4 is a schematic diagram of a first model of a front-end camera real-time video-on-demand method according to an embodiment of the present application.

Fig. 5 is a schematic diagram of a second model of a front-end camera real-time video-on-demand method according to an embodiment of the present application.

Fig. 6 is a schematic diagram of a third model of a front-end camera real-time video-on-demand method according to an embodiment of the present application.

Fig. 7 is a schematic view of a video playing page of a target playing device in a front-end camera real-time video-on-demand method according to an embodiment of the present application.

Fig. 8 is a schematic structural diagram of a front-end camera real-time video-on-demand device according to an embodiment of the present application.

Fig. 9 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the embodiments described are only a few embodiments of the present application and not all 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 application.

In the embodiment of the present application, the intelligent traffic system is an integrated network system that is constructed by comprehensively applying technologies such as audio/video monitoring, communication, computer network, system integration, etc. and has functions of information acquisition, transmission, exchange, control, display, storage, processing, etc. and can realize interconnection, intercommunication, and mutual control between different devices and systems in the traffic field for the purpose of maintaining national security and social stability and preventing and fighting against illegal criminal activities. The intelligent traffic system comprises a front-end camera, a data server, a 5G base station and a traffic police terminal, wherein the front-end camera is connected with the 5G base station based on an sip protocol, and the traffic police terminal is accessed into the data server based on an http protocol.

In the embodiment of the application, the front-end camera refers to a camera which is installed in a monitoring site in an intelligent traffic system and is used for information acquisition, encoding, processing, storage, transmission and safety control.

In the embodiment of the present application, the traffic police terminal refers to a client device registered and authorized by the intelligent transportation system and having an operation requirement on data and devices in the system, and may specifically include a client for traffic police and a client for developers.

In this embodiment of the present application, the playback device refers to a device that can accept a video uploaded by a front-end camera and support playing of videos in multiple formats.

The embodiment of the application provides a method and a device for real-time video on demand of a front-end camera and electronic equipment. The front-end camera real-time video-on-demand device can be integrated in electronic equipment, and the electronic equipment can be a server or a terminal and the like.

Referring to fig. 1, fig. 1 is a scene schematic diagram of a front-end camera real-time video-on-demand system according to an embodiment of the present disclosure, where the system may include terminals and servers, and the terminals, the servers, and the terminals and the servers are connected and communicated through internet composed of various gateways, and the application scene includes a traffic police terminal 11, a data server 12, a 5G base station 13, a playing device 14, and a front-end camera 15; wherein:

the traffic police terminal 11 and the playing device 14 include, but are not limited to, a tablet Computer, a notebook Computer, a Personal Computer (PC), a mini box, or other devices;

the data server 12 comprises a local server and/or a remote server and the like;

the 5G base station 13 comprises a radio transceiver station which carries out information transmission with each terminal in a certain radio coverage area through a communication switching center;

the front-end camera 15 includes video and image capture equipment disposed at the monitored site.

The traffic police terminal 11, the data server 12, the 5G base station 13, the playing device 14 and the front-end camera 15 are located in a wireless network or a wired network, the front-end camera 15 is connected with the data server 12 based on an sip protocol, the traffic police terminal 11 and the playing device 14 are accessed into the data server 12 based on an http protocol, and the data server 12 is connected with the 5G base station 13 based on the 5G protocol, so as to realize data interaction between the five devices, wherein:

the data server 12 receives an http real-time video-on-demand request sent by the traffic police terminal 11 on an on-demand selection page based on an http protocol, generates a corresponding sip real-time video-on-demand request, synchronizes the identification contents of the http state identification and the sip state identification corresponding to the traffic police terminal 11 in real time, sends the sip on-demand request to the 5G base station 13 through a long connection with the 5G base station 13, controls the 5G base station 13 to send the sip on-demand request to the front-end camera 15, receives a sip processing signaling returned by the front-end camera 15, returns the sip processing signaling based on the long connection, generates a sip real-time video-on-demand response, synchronously updates the identification contents of the sip state identification and the http state identification according to the contents of the sip real-time video-on-demand response, generates a http real-time video-on-demand response corresponding to the http state identification when the identification contents of the http state identification are that the on-demand request is completed, and finally returns the http real-time video-on-demand response to the traffic police, and sends the real-time video uploaded by the target camera to the playing device 14, so as to realize real-time video on demand of the front-end camera.

It should be noted that the system scenario diagram shown in fig. 1 is only an example, and the server and the scenario described in the embodiment of the present application are for more clearly illustrating the technical solution of the embodiment of the present application, and do not form a limitation on the technical solution provided in the embodiment of the present application, and as a person having ordinary skill in the art knows, with the evolution of the system and the occurrence of a new service scenario, the technical solution provided in the embodiment of the present application is also applicable to similar technical problems. The following are detailed below. It should be noted that the following description of the embodiments is not intended to limit the preferred order of the embodiments.

Referring to fig. 2, fig. 2 is a schematic flowchart of a front-end camera real-time video-on-demand method according to an embodiment of the present application, where the method includes:

s201: receiving an http real-time video on demand request sent by a traffic police terminal based on an http protocol; the http real-time video on demand request comprises the steps that after a traffic police terminal receives a trigger instruction of on demand real-time video, an on demand selection page comprising a playing equipment selection control and a front-end camera selection control is displayed, target playing equipment is determined according to selection operation aiming at the playing equipment selection control, a target camera is determined according to selection operation aiming at the front-end camera selection control, and the http real-time video on demand request conforming to an http protocol is generated according to a terminal identification of the traffic police terminal, a playing address of the target playing equipment and a target camera identification of the target camera.

The traffic police terminal sends an http real-time video on demand request to the data server based on an http protocol, when the request is sent, a sender can be an internal person of a public security system and used for obtaining real-time videos of a monitored place and judging and processing illegal behaviors, and can also be a video on demand developer with access authority and used for on demand of the real-time videos of the front-end camera and debugging on demand parameters and on demand related equipment according to on demand responses. The http real-time video-on-demand request can be sent through a video monitoring platform which is developed independently, or can be directly sent through a web browser and received by a data server.

The http real-time video on demand request carries a terminal identifier of a traffic police terminal, a playing address of a target playing device and a target camera identifier, wherein the terminal identifier of the traffic police terminal comprises an IP address and a port of the traffic police terminal, and the target camera identifier comprises an ID of a target camera. In a general case, the target playback device and the traffic police terminal are the same device, that is, the traffic police terminal initiating the request also serves as the target playback device receiving the real-time video. The target playing device and the traffic police terminal can also be different devices, namely the traffic police terminal which initiates the request and the target playing device which receives the real-time video are different devices which are registered in the intelligent traffic system. In addition, there may be a plurality of target playback devices, and the plurality of target playback devices may include a traffic police terminal and other playback devices, or may all be other playback devices.

After receiving a trigger instruction for requesting the real-time video, the traffic police terminal displays a request selection page comprising a play device selection control and a front-end camera selection control, and then performs corresponding selection operation on the request selection page to determine which camera in a monitoring place wants to watch the real-time video shot by and which play device plays the real-time video. When the playing device selection control is triggered, a list of all registered playing devices is generated, and then one or some playing devices can be selected as target playing devices, and the traffic police terminal initiating the request or the playing device selected by the last request can be set as the default target playing device in the playing device list. When the front-end camera selection control is triggered, directories of all registered front-end cameras are generated, one of the directories can be selected as a target camera, and the front-end camera selected by the previous request can be set as a default target camera in the front-end camera directory.

And after corresponding selection operation is carried out on the on-demand selection page, generating an http real-time video on demand request which accords with an http protocol according to the playing address of the target playing device and the target camera identification of the target camera.

S202: and generating an sip real-time video-on-demand request corresponding to the http real-time video-on-demand request according to the target camera identification, generating an http state identification corresponding to the http real-time video-on-demand request, generating an sip state identification corresponding to the sip real-time video-on-demand request, and synchronizing the identification contents of the http state identification and the sip state identification in real time, wherein the identification contents comprise the on-demand request completion state.

After receiving the http real-time video on demand request, determining a target camera from the front-end camera cluster information stored in the data server according to a target camera identification carried by the http real-time video on demand request, acquiring an access address of the target camera, and generating a request head in the sip real-time video on demand request according to the access address. And then, converting each on-demand command in the http real-time video on-demand request into an on-demand command under the sip protocol, generating the on-demand command into a message body in the sip real-time video on-demand request, and combining the request head and the message body to generate the corresponding sip real-time video on-demand request.

After the sip real-time video-on-demand request corresponding to the http real-time video-on-demand request is generated, corresponding http state identification and sip state identification are respectively generated for the http real-time video-on-demand request and the sip real-time video-on-demand request, and identification contents of the two state identifications both comprise the starting time of the on-demand request and the completion state of the on-demand request. And synchronizing the identification contents of the http state identification and the sip state identification, namely, when the identification content of one of the http state identification and the sip state identification changes at any moment, the identification content of the other one of the http state identification and the sip state identification changes in the same way. When the on-demand request is not processed, the on-demand request completion state in the identification content always shows that the on-demand request is not completed, and if an on-demand response is received, the on-demand request completion state in the identification content shows that the on-demand request is completed.

S203: and determining a target camera and a target 5G base station corresponding to the target camera according to the target camera identification, determining long connection between the target camera and the target 5G base station, sending a sip real-time video on demand request to the target 5G base station through the long connection, so as to control the target 5G base station to send the sip real-time video on demand request to the target camera through a sip dedicated line based on a sip protocol, and receiving a sip processing signaling returned by the target camera through the sip dedicated line based on the sip protocol.

In a 5G scene, all front-end cameras in a certain area are correspondingly connected with a 5G base station, a one-to-many connection relation is formed between the 5G base station and the front-end cameras, and the connection relations are stored in a data server, so that a target camera corresponding to a target camera identifier can be determined according to the target camera identifier, and further the target camera can be determined to which 5G base station the target camera is connected, and the 5G base station is taken as the target 5G base station. And for all 5G base stations, long connection is established between the data server, after the target 5G base station is determined, the long connection between the data server and the target 5G base station can be found, and then the sip real-time video on demand request is sent to the target 5G base station through the long connection.

The long connection between the data server and the target 5G base station is transmitted based on a 5G protocol, and the sip real-time video-on-demand request is a request under the sip protocol, so that during transmission, the sip real-time video-on-demand request is firstly encapsulated into a first encapsulation packet and then is transmitted to the target 5G base station through the long connection, and the target 5G base station then unpacks the first encapsulation packet into the sip real-time video-on-demand request.

The target 5G base station is connected with the front-end cameras by a sip protocol, and each front-end camera is connected by a sip dedicated line to ensure the safety of data, so that after the target 5G base station receives a sip real-time video on demand request, the data server controls the target 5G base station to send the sip real-time video on demand request to the target cameras through the sip dedicated lines based on the sip protocol, and after the target cameras process the sip real-time video on demand request, the target cameras return a sip processing signaling through the sip dedicated lines.

S204: and receiving an sip processing signaling returned by the target 5G base station through the long connection, generating an sip real-time video on demand response according to the sip processing signaling, and synchronously updating the identification content of the sip state identification and the http state identification according to the content of the sip real-time video on demand response.

And after receiving the sip processing signaling, the target 5G base station returns the sip processing signaling to the data server through the long connection, and when returning, the target 5G base station encapsulates the sip processing signaling into a second encapsulation packet supporting the 5G protocol, and then unpacks the second encapsulation packet after receiving the sip processing signaling, so as to obtain the sip processing signaling.

And the data server generates an sip real-time video-on-demand response according to the sip processing signaling, and then synchronously updates the identification contents of the sip state identification and the http state identification according to the content of the sip real-time video-on-demand response. And when the content of the sip real-time video on demand response is that the on demand is finished, updating the identification content of the sip state identification and the http state identification to that the on demand request is finished.

S205: and when the identification content of the http state identification is that the video-on-demand request is completed, generating an http real-time video-on-demand response corresponding to the http state identification, and returning the http real-time video-on-demand response to the traffic police terminal based on an http protocol according to the terminal identification.

And after the identification contents of the sip state identification and the http state identification are updated to the order request, the data server generates a corresponding http real-time video order response, wherein the response content of the http real-time video order response is the same as the response content of the sip real-time video order response. And determining a traffic police terminal sending the http real-time video on demand request according to the terminal identifier, then establishing an http session between the data server and the traffic police terminal, and returning an http real-time video on demand response to the traffic police terminal.

S206: and sending the real-time video uploaded by the target camera to the target playing equipment according to the playing address.

After receiving the http real-time video on demand response, the traffic police terminal indicates that the request is successful, the target camera encapsulates the shot real-time video to form a data packet, the data packet is uploaded to the data server, the data server sends the data packet to the target playing device according to the playing address of the target playing device, and the target playing device analyzes the data packet and plays the real-time video.

According to the method, firstly, an http on-demand request sent by a traffic police terminal on an on-demand selection page based on an http protocol is received and converted into an sip on-demand request recognizable by a front camera, then an sip on-demand response returned by the front camera is converted into an http on-demand response and then returned to the traffic police terminal, and a real-time video uploaded by a target camera is sent to a target playing device; in addition, the information transmission is carried out through the 5G base station, the speed is high, and the convenience for acquiring the traffic data and the illegal data is improved. In the protocol conversion process, the identification contents of the sip state identification and the http state identification are synchronized, so that the generated sip real-time video on demand response can be converted into the http real-time video on demand response in time, and the response returning speed is improved.

As shown in fig. 3, an on-demand real-time video control 100 is arranged on a platform interface of the traffic police terminal, and when a real-time video shot at a certain intersection is desired to be viewed, and the on-demand real-time video control 100 is clicked, the traffic police terminal receives a trigger instruction of an on-demand implementation video, and displays an on-demand selection page including a playing device selection control 200 and a front-end camera selection control 300. The on-demand real-time video control 100 and the other two controls can be arranged on different pages, that is, the on-demand selection page can be a page generated by clicking the on-demand real-time video control 100 on another page of the traffic police terminal; the on-demand real-time video control 100 and the other two controls can be arranged on the same page, when the on-demand real-time video control 100 is not clicked, the other two controls are not displayed, and after the on-demand real-time video control 100 is clicked, the page serves as an on-demand selection page to display the playing device selection control 200 and the front-end camera selection control 300. A video display area 500 is arranged in the click selection page, a play button 501 is arranged in the video display area 500, and in an initial state, a blank picture or a final display picture when a video is played last time is in the video display area 500.

After the on-demand selection page clicks the playing device selection control 200, the on-demand selection page generates a playing device directory 201 according to a trigger operation for the device selection control 200, all playing devices registered in the intelligent transportation system can be displayed in the playing device directory 201, and then a corresponding selection operation is performed in the playing device directory 201 to determine which playing device is used as a target playing device to play a real-time video. When the selection operation is performed, one or more playback devices may be selected from the playback device list 201 as target playback devices, where the traffic police terminal that initiated the request or the playback device that was last requested to be selected may be set as a default target playback device. When there are many playing devices in the playing device directory 201, a search or screening function may be set, and the search range is narrowed according to information such as keywords, so that a target playing device to be selected can be quickly found.

Similarly, after the on-demand selection page clicks the front-end camera selection control 300, the on-demand selection page generates a front-end camera directory 301 according to a trigger operation for the front-end camera selection control 300, all front-end cameras registered in the intelligent transportation system can be displayed in the front-end camera directory 301, and then a corresponding selection operation is performed on the front-end camera directory 301 to determine which camera in the monitoring site to view the real-time video. In performing the selection operation, one of the front-end cameras from the front-end camera list 301 may be selected as a target camera, wherein the front-end camera that was last requested to be selected may be set as a default target camera. When there are many front-end cameras included in the front-end camera directory 301, a search or screening function may be set, and the search range is narrowed down according to information such as keywords, so that a target camera desired to be selected is quickly searched.

After the corresponding selection operations are executed on the device selection control 200 and the front-end camera selection control 300, and the determination 400 is clicked, an http real-time video-on-demand request conforming to an http protocol is generated according to the terminal identifier of the traffic police terminal, the playing address of the target playing device, and the target camera identifier of the target camera.

As shown in fig. 4, the framework of the front-end camera real-time video-on-demand is divided into several modules, and the data server includes http side processing logic 22, message synchronizer 23 and sip side processing logic 24. An http real-time video on demand request 21 sent by a traffic police terminal on an on-demand selection page based on an http protocol is firstly sent to an http side processing logic 22 for processing, and then is sent to a message synchronizer 23 by the http side processing logic 22; the message synchronizer 23 converts the http real-time video-on-demand request into a sip real-time video-on-demand request, generates an http state identifier for the http real-time video-on-demand request, generates a sip state identifier for the sip real-time video-on-demand request, synchronizes the identifier contents of the http state identifier and the sip state identifier, and then sends the sip real-time video-on-demand request to the sip side processing logic 24 for processing; after the processing by the sip side processing logic 24 is completed, the sip real-time video on demand request is sent to the target 5G base station 25 through the long connection between the target 5G base stations 25, the target 5G base station 25 sends the sip real-time video on demand request to the target camera 26, and receives the sip processing signaling returned from the target camera 26 to the target 5G base station 25, the target 5G base station 25 returns the sip processing signaling to the sip side processing logic 24 based on the long connection, the sip side processing logic 24 generates the sip real-time video on demand response according to the returned sip processing signaling and sends the sip real-time video on demand response to the message synchronizer 23, the message synchronizer 23 synchronously updates the identification content of the http status identification and the sip status identification according to the content of the sip real-time video on demand response, when the identification content of the http state identification is that the request is finished, generating an http real-time video on demand response and sending the http real-time video on demand response to the http side processing logic 22; the http side processing logic 22 returns an http real-time video on demand response 27 to the traffic police terminal, and the traffic police terminal determines the processing state of the on demand request according to the http real-time video on demand response 27.

As shown in fig. 5 and fig. 6, the http side processing logic 22 includes an http service module 221, a request parser 222, a validity judgment 223, an http message manager 224, and an http timer status notification queue 225, and the sip side processing logic 24 includes an sip on-demand management 241, an sip message manager 242, a user agent client 243, and a user agent server 244, and the front-end camera real-time video on demand method according to the present application is specifically described below with reference to fig. 5 and fig. 6.

And the traffic police terminal sends an http real-time video on demand request 21 to the http side processing logic 22, wherein the http real-time video on demand request 21 carries the target camera identification. The data server determines that a target camera is specifically located at xx road junction of xx road section of xx area according to a target camera identification so as to send http real-time video on demand request 21 to the target camera, then determines which traffic police terminal the target camera should send after receiving on demand response according to a terminal identification, determines which equipment the last real-time video stream of the target camera should send specifically according to a playing address of the target playing equipment, so that the target playing equipment can obtain real-time video shot by the target camera, determines data such as traffic violation type, traffic violation time, information of traffic violation vehicles or pedestrians and the like according to traffic behaviors of vehicles or pedestrians at the junction in the real-time video, and can process the data according to traffic violation data subsequently.

In the http side processing logic 22, the http real-time vod request 21 is received by the http service module 221, where the http service module 221 includes an http gateway, and then the http real-time vod request 21 is transferred to the request parser 222. The request parser 222 parses each command parameter in the http real-time vod request 21, and then puts the http real-time vod request 21 into the http message manager 224. The http message manager 224 continuously handles the internal message buffering while sending the newly entered http real-time vod request 21 to the message synchronizer 23.

In an embodiment, before the step of placing the http real-time vod request 21 into the http message manager 224, the validity judgment 223 is further performed on the parsed http real-time vod request 21, which specifically includes: based on the effective parameter set of the request for requesting, carrying out logic judgment on the http real-time video on demand request 21; and if the http real-time video-on-demand request 21 is legal, caching the http real-time video-on-demand request 21 into the http message manager 224, and if the http real-time video-on-demand request 21 is illegal, directly returning a termination request result to the traffic police terminal, wherein the termination request result is represented as an http real-time video-on-demand response 27 at the traffic police terminal. When the traffic police terminal sends out the http real-time video on demand request 21, the http real-time video on demand request 21 comprises parameters such as target camera identification, on demand command and the like, if the input of each identifier or on-demand command is wrong, the subsequent processing logic is affected, so after parsing, based on the on-demand request valid parameter set, making a logical judgment on the http real-time video-on-demand request 21, wherein the effective parameter set of the on-demand request comprises the type of effective parameters, specific parameter values, the arrangement sequence of the parameters and the like, and if the effective parameter set is legal, the next step is entered to cache the http real-time vod request 21 into the http message manager 224, and if it is not legal, then the terminal returns the result of the termination request to the traffic police terminal, and can further display the specific error type, such as inputting invalid parameters or finding no corresponding target camera, so that the http real-time video on demand request 21 can be adjusted and input again by the traffic police terminal.

In one embodiment, after the step of caching the http real-time vod request 21 to the http message manager 224, the method further comprises: judging whether the http real-time video-on-demand request 21 has the same content as the http real-time video-on-demand request entering in the previous preset time period; if the content is the same, the http real-time vod request 21 is removed from the http message manager 224, and if the content is different, the http real-time vod request 21 is sent to the message synchronizer 23. After the traffic police terminal sends the http real-time video-on-demand request 21, if no on-demand response is received within an expected time, one or more refreshing operations are usually performed, each refreshing operation re-sends one real-time video-on-demand request 21, the content of each sent real-time video-on-demand request 21 is the same, if the data server processes each request, resource waste is caused, therefore, after the http real-time video-on-demand request 21 is cached to the http message manager 224, the http message manager 224 numbers the incoming requests in time sequence, such as No. 1, No. 2, No. 3, and the like, and every time a new http real-time video-on-demand request 21 is entered, the incoming requests are checked for duplication and judged.

Assuming that the number of the newly entered http real-time vod request 21 is n, the http message manager 224 first determines whether an n-1 th request enters within a preset time period from the time of the n-th request entering, where the preset time period may be set according to the sending behavior of the majority of request senders, for example, if the majority of request senders start to initiate requests again if no response is received within 2 seconds after sending the request, 2 seconds may be used as the preset time period. If it is detected that no nth-1 request is entered within the previous preset time period, the newly entered http real-time vod request may be directly sent to the message synchronizer 23. If an n-1 request is detected to enter in the previous preset time period, content duplication judgment is carried out on the n-1 request and the n request, when the contents are the same, the n request is a repeated request, the newly entered http real-time video on demand request is removed from the http message manager 224, the n-1 request is continuously processed, when the contents are different, the n request is a new request, the newly entered http real-time video on demand request is sent to the message synchronizer 23, and after the n-1 request is processed, subsequent processing is continuously carried out on the n request.

After receiving the http real-time video-on-demand request 21, the message synchronizer 23 generates an sip real-time video-on-demand request corresponding to the http real-time video-on-demand request according to the identification of the target camera. The data server stores cluster information of the front-end cameras, the front-end cameras registered in the data server are all located in the cluster information, each front-end camera has a unique identifier, a target camera is determined from the cluster information of the front-end cameras according to the identifier of the target camera, an access address of the target camera is obtained, and a request head in a sip real-time video on demand request can be generated according to the access address. Then, converting each request command in the http real-time video-on-demand request 21 into a request command under the sip protocol, generating the request command into a message body in the sip real-time video-on-demand request, and combining the request header and the message body to generate the corresponding sip real-time video-on-demand request.

The message synchronizer 23 generates an http status identifier for the http real-time video-on-demand request 21, generates an sip status identifier for the sip real-time video-on-demand request, and synchronizes the http status identifier and the identification content of the sip status identifier in real time, wherein the identification content includes an on-demand request completion status. In the message synchronizer 23, the identification contents of the http state identification and the sip state identification are the same at any moment, and the synchronization operation is realized by a corresponding synchronization program.

For the http real-time video on demand request 21 newly entering the message synchronizer 23, after the steps of format conversion and identification synchronization are completed, the sip real-time video on demand request is sent to the sip side processing logic 24, and then the sip side processing logic 24 sends the sip real-time video on demand request to the target camera corresponding to the target camera identification through the target 5G base station 25 based on the long connection with the target 5G base station 25. After the request is sent, the inside of the message synchronizer 23 detects the time-out and completion of the request, if the sip side processing logic 24 returns the sip real-time video on demand response, or if the sip real-time video on demand response does not return after exceeding the maximum value of the response time, the message synchronizer 23 generates a corresponding http real-time video on demand response and puts the http real-time video on demand response into the http timer state notification queue 225, the http timer state notification queue 225 notifies the http message manager 224 according to the sequence of response entering, the http message manager 224 returns the http real-time video on demand response 27 to the traffic police terminal, and the traffic police terminal can obtain the processing result of the request.

The sip real-time video-on-demand request is firstly sent to the sip on-demand management 241, and the sip on-demand management 241 generates a unique identifier for the sip real-time video-on-demand request and then caches the unique identifier into the sip message manager 242. Then, the user agent client 243 checks from the sip message manager 242 whether a new on-demand request arrives or an update of the on-demand request status is available, and sends a different request to the target 5G base station 25 according to the check result. When a new sip real-time video-on-demand request arrives at the sip message manager 242, according to the target camera identification carried in the sip real-time video-on-demand request, the target camera corresponding to the identification is determined, and then the 5G base station to which the target camera is connected is determined, and the 5G base station is used as the target 5G base station 25. For all 5G base stations, long connection is established between the base stations and the data server, after the target 5G base station 25 is determined, the long connection between the data server and the target 5G base station 25 can be found, and then the sip real-time video-on-demand request is sent to the target 5G base station 25 through the long connection.

In one embodiment, the specific step of sending the sip real-time video on demand request to the target 5G base station 25 includes: caching the sip real-time video-on-demand request into the sip message manager 242; encapsulating the sip real-time video-on-demand request into a first encapsulation packet; the first encapsulated packet is sent over the long connection to the target 5G base station 25. Because the long connection between the data server and the target 5G base station 25 is based on 5G protocol transmission, and the sip real-time video-on-demand request is a request under the sip protocol, the sip real-time video-on-demand request is firstly encapsulated into a first encapsulation packet, then the first encapsulation packet is sent to the target 5G base station 25 through the long connection, and then the target 5G base station 25 unpacks the first encapsulation packet into the sip real-time video-on-demand request.

In one embodiment, the specific step of sending the sip real-time video on demand request to the target 5G base station 25 further includes: acquiring a connection period of a target 5G base station 25 and a target camera 26; and in the connection period, sending an sip real-time video on demand request to the target 5G base station 25 through the long connection so as to control the target 5G base station 25 to send the sip real-time video on demand request to the target camera 26 through an sip dedicated line based on an sip protocol. The target 5G base station 25 and all front-end cameras in the connection range thereof form a one-to-many relationship, for each front-end camera, the target 5G base station 25 has a connection channel corresponding to the front-end camera, but the connection channels between the target 5G base station 25 and the front-end cameras are not communicated at all times, but are sequentially opened and closed according to a certain sequence, so that for each front-end camera, there is a corresponding connection period, and only in the connection period, the front-end camera and the target 5G base station 25 can realize communication, so that it is necessary to first obtain the connection period between the target 5G base station 25 and the target camera 26, and then in the connection period, control the target 5G base station 25 to send a sip real-time video-on-demand request to the target camera 26.

The target 5G base station 25 is connected with the front-end cameras by a sip protocol, and each front-end camera is connected by a sip dedicated line to ensure the safety of data, so that after the target 5G base station 25 receives a sip real-time video-on-demand request, the data server controls the target 5G base station 25 to send the sip real-time video-on-demand request to the target camera 26 through the sip dedicated line based on the sip protocol, and after the target camera 26 processes the sip real-time video-on-demand request, the sip processing signaling is returned to the target 5G base station 25 through the sip dedicated line.

And after receiving the sip processing signaling, the target 5G base station returns the sip processing signaling to the sip side processing logic 24 of the data server through the long connection, and the sip side processing logic 24 generates a sip real-time video on demand response according to the sip processing signaling and synchronously updates the identification contents of the sip state identification and the http state identification according to the content of the sip real-time video on demand response.

In one embodiment, the steps specifically include: receiving a second encapsulation packet returned by the target 5G base station 25 to the sip message manager 242 through the long connection, and unpacking the second encapsulation packet to obtain an sip processing signaling of the target camera 26; updating the identification content of the sip state identification corresponding to the sip real-time video on demand request in the sip message manager 242 according to the sip processing signaling; when detecting that the identification content of the sip state identification is that the on-demand request is completed, generating and returning a sip real-time video on-demand response to the message synchronizer 23; and according to the content of the sip real-time video on demand response, synchronously updating the identification content of the sip state identification and the http state identification in the message synchronizer 23.

The processing signaling returned by the target camera 26 after processing the sip real-time video on demand request is sent to the sip side processing logic 24, and then received by the user agent 244, and the user agent 244 updates the identification content of the sip status identification corresponding to the sip real-time video on demand request in the sip message manager 242 according to the processing signaling. Specifically, when the processing signaling is 200OK, indicating that the on-demand request is completed, the user agent server 244 matches the sip real-time video-on-demand request in the sip message manager 242, and updates the identification content of the sip status identifier corresponding to the sip real-time video-on-demand request to the on-demand request completed.

When detecting that the identification content of the sip state identification is that the on-demand request is completed, generating and returning a sip real-time video-on-demand response to the message synchronizer 23, and then synchronously updating the identification content of the sip state identification and the identification content of the http state identification in the message synchronizer 23 according to the content of the sip real-time video-on-demand response, so that the identification content of the sip state identification and the identification content of the http state identification are both updated to be that the on-demand request is completed.

In one embodiment, the steps after returning the sip real-time video on demand response to the message synchronizer 23 include: the sip real-time video-on-demand request is removed from the sip message manager 242. At this point the on-demand request has been processed and a corresponding on-demand response is generated, and therefore removed from sip message manager 242, the cache space of sip message manager 242 may be freed up to facilitate sip message manager 242 to re-process other request messages. In addition, after the log is removed, the data server can store the log related to the sip real-time video-on-demand response, classify a plurality of on-demand responses in a certain period of time in the log, for example, classify according to the on-demand request completion time, analyze the condition with long processing time, find the reason, facilitate the developers to perform BUG positioning and program debugging, and subsequently maintain and upgrade the system.

And when the identification content of the http state identification is that the on-demand request is completed, the message synchronizer 23 generates an http real-time video-on-demand response corresponding to the http state identification, determines which client the on-demand response should be sent to according to the terminal identification, and returns an http real-time video-on-demand response 27 to the traffic police terminal based on the http protocol. And the traffic police terminal determines the processing result of the on-demand request according to the content of the http real-time video on-demand response 27.

In one embodiment, the steps after returning the http real-time vod response 27 to the traffic police terminal include: the http real-time video-on-demand request and the sip real-time video-on-demand request are removed from the message synchronizer 23. After removal, the internal space of the message synchronizer 23 is also released to facilitate the message synchronizer 23 to process other request messages.

After the traffic police terminal obtains the http real-time video on demand response 27, the target camera 26 packages the shot real-time video stream, determines a stream receiving address according to the playing address of the target playing device, and then sends the real-time video stream to the target playing device. In this embodiment, taking the target playing device and the traffic police terminal as the same device as an example, as shown in fig. 7, after the target playing device receives the real-time video stream, the target playing device clicks the playing button 501 in the video playing area 500, and then the real-time video can be played in the target playing device, so as to realize the identification and subsequent processing of the traffic violation data. When the real-time videos shot by other front-end cameras are desired to be watched after the watching is finished, the on-demand real-time video control 100 can be clicked again to generate a next on-demand request. When the target playing device and the traffic police terminal are different devices, the link address of video playing can be sent to the target playing device, and the target playing device can enter a video playing page after clicking the link address, so that real-time video can be watched on other devices except the traffic police terminal.

According to the embodiment, the front-end camera real-time video on demand method receives an http on demand request sent by a traffic police terminal on an on demand selection page based on an http protocol, converts the http on demand request into a sip on demand request recognizable by a front-end camera, converts a sip on demand response returned by the front-end camera into an http on demand response, returns the http on demand response to the traffic police terminal, sends a real-time video uploaded by a target camera to target playing equipment, and can select the corresponding target camera and the target playing equipment only according to selection operation when the request is initiated on the on demand selection page, so that the operation is simple, the whole on demand process traffic police terminal can be completed only on a web browser or a platform, and special SDK software is not required to be called, and therefore the safety is guaranteed; in addition, the information transmission is carried out through the 5G base station, the speed is high, and the convenience for acquiring the traffic data and the illegal data is improved. In the protocol conversion process, the identification contents of the sip state identification and the http state identification are synchronized, so that the generated sip real-time video on demand response can be converted into the http real-time video on demand response in time, and the response returning speed is improved.

On the basis of the method described in the foregoing embodiment, the present embodiment will be further described from the perspective of a real-time video-on-demand device, please refer to fig. 8, where fig. 8 specifically describes the real-time video-on-demand device provided in the embodiment of the present application, which may include:

the receiving module 110 is configured to receive an http real-time video-on-demand request sent by the traffic police terminal based on an http protocol; the http real-time video on demand request comprises the steps that after a traffic police terminal receives a trigger instruction of on-demand real-time video, an on-demand selection page comprising a playing equipment selection control and a front-end camera selection control is displayed, target playing equipment is determined according to selection operation aiming at the playing equipment selection control, a target camera is determined according to selection operation aiming at the front-end camera selection control, and an http real-time video on demand request conforming to an http protocol is generated according to a terminal identification of the traffic police terminal, a playing address of the target playing equipment and a target camera identification of the target camera;

the first synchronization module 120 is configured to generate an sip real-time video-on-demand request corresponding to the http real-time video-on-demand request according to the target camera identifier, generate an http state identifier corresponding to the http real-time video-on-demand request, generate an sip state identifier corresponding to the sip real-time video-on-demand request, and synchronize identifier contents of the http state identifier and the sip state identifier in real time, where the identifier contents include an on-demand request completion state;

the first sending module 130 is configured to determine, according to the target camera identifier, a target 5G base station corresponding to the target camera and a long connection with the target 5G base station, send a sip real-time video-on-demand request to the target 5G base station through the long connection, so as to control the target 5G base station to send the sip real-time video-on-demand request to the target camera through a sip dedicated line based on a sip protocol, and receive a sip processing signaling returned by the target camera through the sip dedicated line based on the sip protocol;

the second synchronization module 140 is configured to receive an sip processing signaling returned by the target 5G base station through the long connection, generate an sip real-time video-on-demand response according to the sip processing signaling, and synchronously update the identification content of the sip state identifier and the identification content of the http state identifier according to the content of the sip real-time video-on-demand response;

the returning module 150 is used for generating an http real-time video on demand response corresponding to the http state identifier when the identifier content of the http state identifier is that the on demand request is completed, and returning the http real-time video on demand response to the traffic police terminal based on the http protocol according to the terminal identifier;

and the second sending module 160 is configured to send the real-time video uploaded by the target camera to the target playing device according to the playing address.

In an embodiment, the receiving module 110 is configured to generate a playing device directory according to a trigger operation for the playing device selecting device, and determine a target playing device according to a selecting operation for a playing device in the playing device directory; and generating a front-end camera directory according to the triggering operation aiming at the front-end camera selection control, and determining a target camera according to the selection operation aiming at the front-segment camera in the front-end camera directory.

In an embodiment, the real-time video-on-demand device further includes a logic determination module, configured to perform logic determination on the http real-time video-on-demand request based on the on-demand request valid parameter set after the receiving module 110 receives the http real-time video-on-demand request; and if the http real-time video-on-demand request is legal, caching the http real-time video-on-demand request to an http message manager, and if the http real-time video-on-demand request is illegal, directly returning a termination request result to the traffic police terminal.

In one embodiment, the real-time video-on-demand device further comprises a duplication checking module, wherein after the http real-time video-on-demand request is cached to the http message manager, the duplication checking module is used for judging whether the content of the http real-time video-on-demand request is the same as the content of the http real-time video-on-demand request entering in the previous preset time period; and if the contents are the same, removing the http real-time video on demand request from the http message manager, and if the contents are different, sending the http real-time video on demand request to the message synchronizer.

In an embodiment, the first sending module 130 specifically includes:

the caching unit is used for caching the sip real-time video-on-demand request into the sip message manager;

the packaging unit is used for packaging the sip real-time video-on-demand request into a first packaging packet;

and the sending unit is used for sending the first encapsulating packet to the target 5G base station through long connection.

In one embodiment, the first sending module 130 further includes:

the receiving unit is used for receiving a second encapsulation packet returned to the sip message manager by the target 5G base station through long connection, and unpacking the second encapsulation packet to obtain an sip processing signaling of the target camera;

the first updating unit is used for updating the identification content of the sip state identification corresponding to the sip real-time video on demand request in the sip message manager according to the sip processing signaling;

the return unit is used for generating and returning a sip real-time video on demand response to the message synchronizer when detecting that the identification content of the sip state identification is that the on demand request is completed;

and the second updating unit is used for synchronously updating the identification contents of the sip state identification and the http state identification in the message synchronizer according to the content of the sip real-time video on demand response.

In an embodiment, the second updating unit is configured to update the identification content of the sip status identifier and the http status identifier synchronously to that the on-demand request is completed according to the content of the sip real-time video-on-demand response.

Different from the prior art, the real-time video on demand device provided by the application firstly receives an http on demand request sent by a traffic police terminal on a on demand selection page based on an http protocol, converts the http on demand request into a sip on demand request which can be identified by a front-end camera, then converts the sip on demand response returned by the front-end camera into an http on demand response and returns to the traffic police terminal, and sends a real-time video uploaded by a target camera to target playing equipment; in addition, the information transmission is carried out through the 5G base station, the speed is high, and the convenience for acquiring the traffic data and the illegal data is improved. In the protocol conversion process, the identification contents of the sip state identification and the http state identification are synchronized, so that the generated sip real-time video on demand response can be converted into the http real-time video on demand response in time, and the response returning speed is improved.

Accordingly, embodiments of the present application also provide an electronic device, as shown in fig. 9, which may include components such as a radio frequency circuit 901, a memory 902 including one or more computer-readable storage media, an input unit 903, a display unit 904, a sensor 905, an audio circuit 906, a WiFi module 907, a processor 908 including one or more processing cores, and a power supply 909. Those skilled in the art will appreciate that the electronic device architecture shown in fig. 9 does not constitute a limitation of a server and may include more or fewer components than shown, or some components may be combined, or a different arrangement of components. Wherein:

the rf circuit 901 may be used for receiving and transmitting signals during information transmission and reception or during a call, and in particular, receives downlink information of a base station and then sends the received downlink information to the one or more processors 908 for processing; in addition, data relating to uplink is transmitted to the base station. The memory 902 may be used to store software programs and modules, and the processor 908 executes various functional applications and data processing by operating the software programs and modules stored in the memory 902. The input unit 903 may be used to receive input numeric or character information and generate keyboard, mouse, joystick, optical or trackball signal inputs related to user settings and function control.

The display unit 904 may be used to display information input by or provided to the user and various graphical user interfaces of the server, which may be made up of graphics, text, icons, video, and any combination thereof.

The electronic device may also include at least one sensor 905, such as light sensors, motion sensors, and other sensors. The audio circuitry 906 includes a speaker that can provide an audio interface between a user and the electronic device.

WiFi belongs to short-distance wireless transmission technology, and the electronic equipment can help a user to send and receive e-mails, browse webpages, access streaming media and the like through the WiFi module 907, and provides wireless broadband internet access for the user. Although fig. 9 shows the WiFi module 907, it is understood that it does not belong to the essential constitution of the electronic device, and may be omitted entirely as needed within the scope not changing the essence of the application.

The processor 908 is a control center of the electronic device, connects various parts of the entire cellular phone using various interfaces and lines, and performs various functions of the electronic device and processes data by operating or executing software programs and/or modules stored in the memory 902 and calling data stored in the memory 902, thereby performing overall monitoring of the cellular phone.

The electronic device also includes a power supply 909 (e.g., a battery) that provides power to the various components, which may preferably be logically coupled to the processor 908 via a power management system, such that the functions of managing charging, discharging, and power consumption are performed via the power management system.

Although not shown, the electronic device may further include a camera, a bluetooth module, and the like, which are not described in detail herein. Specifically, in this embodiment, the processor 908 in the electronic device loads an executable file corresponding to a process of one or more application programs into the memory 902 according to the following instructions, and the processor 908 executes the application programs stored in the memory 902, so as to implement the following functions:

receiving an http real-time video on demand request sent by a traffic police terminal based on an http protocol; the http real-time video on demand request comprises the steps that after a traffic police terminal receives a trigger instruction of on-demand real-time video, an on-demand selection page comprising a playing equipment selection control and a front-end camera selection control is displayed, target playing equipment is determined according to selection operation aiming at the playing equipment selection control, a target camera is determined according to selection operation aiming at the front-end camera selection control, and an http real-time video on demand request conforming to an http protocol is generated according to a playing address of the target playing equipment and a target camera identification of the target camera; generating an sip real-time video-on-demand request corresponding to the http real-time video-on-demand request according to the target camera identification, generating an http state identification corresponding to the http real-time video-on-demand request, an sip state identification corresponding to the sip real-time video-on-demand request, and synchronizing the identification contents of the http state identification and the sip state identification in real time, wherein the identification contents comprise an on-demand request completion state; determining a target camera and a target 5G base station corresponding to the target camera according to the target camera identification, determining long connection between the target camera and the target 5G base station, sending a sip real-time video on demand request to the target 5G base station through the long connection, so as to control the target 5G base station to send the sip real-time video on demand request to the target camera through a sip dedicated line based on a sip protocol, and receiving a sip processing signaling returned by the target camera through the sip dedicated line based on the sip protocol; receiving an sip processing signaling returned by the target 5G base station through long connection, generating an sip real-time video on demand response according to the sip processing signaling, and synchronously updating the identification contents of the sip state identification and the http state identification according to the content of the sip real-time video on demand response; when the identification content of the http state identification is that the video-on-demand request is completed, generating an http real-time video-on-demand response corresponding to the http state identification, and returning the http real-time video-on-demand response to the traffic police terminal based on an http protocol according to the terminal identification; and sending the real-time video uploaded by the target camera to the target playing equipment according to the playing address.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and parts that are not described in detail in a certain embodiment may refer to the above detailed description, and are not described herein again.

It will be understood by those skilled in the art that all or part of the steps of the methods of the above embodiments may be performed by instructions or by associated hardware controlled by the instructions, which may be stored in a computer readable storage medium and loaded and executed by a processor.

To this end, the present application provides a storage medium, in which a plurality of instructions are stored, and the instructions can be loaded by a processor to implement the following functions:

The above operations can be implemented in the foregoing embodiments, and are not described in detail herein.

Wherein the storage medium may include: read Only Memory (ROM), Random Access Memory (RAM), magnetic or optical disks, and the like.

Since the instructions stored in the storage medium can execute the steps in any method provided in the embodiments of the present application, the beneficial effects that can be achieved by any method provided in the embodiments of the present application can be achieved, for details, see the foregoing embodiments, and are not described herein again.

The method, the device and the electronic equipment for real-time video on demand of the front-end camera provided by the embodiment of the application are introduced in detail, a specific example is applied in the text to explain the principle and the implementation mode of the application, and the description of the embodiment is only used for helping to understand the technical scheme and the core idea of the application; those of ordinary skill in the art will understand that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the present disclosure as defined by the appended claims.

Claims

1. The utility model provides a real-time video on demand method of front end camera, its characterized in that is applicable to wisdom traffic system, wisdom traffic system includes front end camera, data server, 5G basic station and traffic police terminal, the front end camera is based on sip agreement connection the 5G basic station, traffic police terminal is based on http agreement access the data server, the real-time video on demand of front end camera is applied to the data server, the real-time video on demand method of front end camera includes:

receiving an http real-time video on demand request sent by the traffic police terminal based on an http protocol; the http real-time video-on-demand request comprises that after the traffic police terminal receives a trigger instruction of on-demand real-time video, an on-demand selection page comprising a playing equipment selection control and a front-end camera selection control is displayed, target playing equipment is determined according to selection operation aiming at the playing equipment selection control, a target camera is determined according to selection operation aiming at the front-end camera selection control, and the http real-time video-on-demand request conforming to an http protocol is generated according to a terminal identifier of the traffic police terminal, a playing address of the target playing equipment and a target camera identifier of the target camera;

2. The method for real-time video-on-demand by the front-end camera according to claim 1, wherein the step of determining the target playing device according to the selection operation for the playing device selection control and determining the target camera according to the selection operation for the front-end camera selection control comprises:

generating a playing device directory according to the triggering operation aiming at the playing device selection device, and determining a target playing device according to the selection operation aiming at the playing device in the playing device directory;

and generating a front-end camera directory according to the triggering operation aiming at the front-end camera selection control, and determining a target camera according to the selection operation aiming at the front-segment camera in the front-end camera directory.

3. The front-end camera real-time video-on-demand method according to claim 1, wherein before the step of generating the sip real-time video-on-demand request corresponding to the http real-time video-on-demand request according to the target camera identification, the method further comprises:

based on the effective parameter set of the request for on demand, carrying out logic judgment on the http real-time video on demand request;

and if the http real-time video-on-demand request is legal, caching the http real-time video-on-demand request to an http message manager, and if the http real-time video-on-demand request is illegal, directly returning a termination request result to the traffic police terminal.

4. The front-end camera real-time video-on-demand method according to claim 3, further comprising, after the step of caching the http real-time video-on-demand request to an http message manager:

judging whether the http real-time video-on-demand request has the same content as the http real-time video-on-demand request entering in the previous preset time period or not;

and if the contents are the same, removing the http real-time video on demand request from the http message manager, and if the contents are different, sending the http real-time video on demand request to a message synchronizer.

5. The front-end camera real-time video-on-demand method according to claim 1, wherein the step of sending the sip real-time video-on-demand request to the target 5G base station through the long connection comprises:

caching the sip real-time video-on-demand request into a sip message manager;

encapsulating the sip real-time video-on-demand request into a first encapsulation packet;

and sending the first encapsulating packet to the target 5G base station through the long connection.

6. The front-end camera real-time video-on-demand method according to claim 1, wherein the step of receiving the sip processing signaling returned by the target 5G base station through the long connection, generating an sip real-time video-on-demand response according to the sip processing signaling, and synchronously updating the identification contents of the sip state identifier and the http state identifier according to the contents of the sip real-time video-on-demand response comprises:

receiving a second encapsulation packet returned to an sip message manager by the target 5G base station through the long connection, and unpacking the second encapsulation packet to obtain an sip processing signaling of the target camera;

updating the identification content of the sip state identification corresponding to the sip real-time video on demand request in the sip message manager according to the sip processing signaling;

when detecting that the identification content of the sip state identification is that the on-demand request is completed, generating and returning a sip real-time video on-demand response to the message synchronizer;

and synchronously updating the identification contents of the sip state identification and the http state identification in the message synchronizer according to the content of the sip real-time video on demand response.

7. The front-end camera real-time video-on-demand method according to claim 6, wherein the step of synchronously updating the identification contents of the sip state identifier and the http state identifier in the message synchronizer according to the content of the sip real-time video-on-demand response comprises:

and synchronously updating the identification contents of the sip state identification and the http state identification into the completion of the on-demand request according to the content of the sip real-time video on-demand response.

8. The front-end camera real-time video-on-demand method according to claim 7, wherein the step of generating an http real-time video-on-demand response corresponding to the http state identifier when the identifier content of the http state identifier is that the on-demand request is completed comprises:

and when the identification content of the http state identification is that the video-on-demand request is completed, generating an http real-time video-on-demand response that the real-time video-on-demand is completed.

9. The utility model provides a real-time video on demand device of front end camera, a serial communication port, be applicable to wisdom traffic system, wisdom traffic system includes front end camera, data server, 5G basic station and traffic police's terminal, the front end camera is connected based on the sip agreement 5G basic station, the traffic police's terminal inserts based on the http protocol data server, the real-time video on demand device of front end camera sets up in the data server, the real-time video on demand device of front end camera includes:

the receiving module is used for receiving an http real-time video on demand request sent by the traffic police terminal based on an http protocol; the http real-time video-on-demand request comprises that after the traffic police terminal receives a trigger instruction of on-demand real-time video, an on-demand selection page comprising a playing equipment selection control and a front-end camera selection control is displayed, target playing equipment is determined according to selection operation aiming at the playing equipment selection control, a target camera is determined according to selection operation aiming at the front-end camera selection control, and the http real-time video-on-demand request conforming to an http protocol is generated according to a terminal identifier of the traffic police terminal, a playing address of the target playing equipment and a target camera identifier of the target camera;

10. An electronic device comprising a memory and a processor; the memory stores an application program, and the processor is configured to run the application program in the memory to perform the operations of the front-end camera real-time video-on-demand method according to any one of claims 1 to 8.