CN117082267A - Real-time cloud uploading system and method for full-code stream video of expressway - Google Patents

Abstract

The invention discloses a real-time cloud system and a real-time cloud method for full code stream video of a highway, wherein the real-time cloud system comprises a camera module, a video gateway module, a distribution unit and a service module, wherein the camera module and the video gateway module are arranged on a road side or in a local environment, the camera module and the video gateway module are connected by adopting data communication, and the video gateway module is connected with the distribution unit by adopting an external network by adopting data communication; the invention realizes flexible video access, provides high-speed, massive and high concurrency capacity through the cloud distribution unit, can realize real-time cloud loading of the full-code stream video of the expressway, and supports multi-system transverse expansion and longitudinal expansion to meet the requirements of massive access and cross-region high-speed access, so that users can be helped to realize sharing of video resources, multi-user cooperation, real-time sharing, distributed storage and control of access rights, thereby improving the utilization rate and safety of the video resources, and being suitable for being widely popularized and used.

Description

Real-time cloud uploading system and method for full-code stream video of expressway

Technical Field

The invention relates to the technical field of real-time cloud loading of full-code stream video of expressways, in particular to a real-time cloud loading system and method of full-code stream video of expressways.

Background

Hardware equipment NVR and video access gateways are deployed in lower units of toll stations or service areas, NVR video streams are obtained through the video access gateways, streaming media servers are deployed in companies or sub-centers, the video access gateways converge videos into streaming media server equipment, video transcoding servers are deployed in the sub-centers, the video streams are transcoded as required through the transcoding servers, the transcoded video streams are pushed to a sensing CDN or sensing real-time streaming media, and an upper service system is used for calling and watching real-time videos as required; if the user calls the video, the video call instruction is issued until the lower-level NVR equipment, the NVR equipment uploads the video layer by layer to the transcoding gateway, the transcoding gateway needs to consume performance again, and a plurality of transcoding equipment is equipped according to actual service requirements, so that the requirement of video call can be finally met.

At present, enterprises are difficult to realize multi-cloud multi-network interconnection, meanwhile, the front-end equipment of each type is required to be compatible, the operation and maintenance span of network links is large and complex, mass data cannot be shared in real time, and the cost of purchasing equipment is too high; therefore, a real-time cloud-loading system and method for highway full-code stream video are needed to be designed.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides a real-time cloud system and a method for full-code stream video on a highway, which are used for providing flexible video access, and providing high-speed, massive and high-concurrency capacity through a cloud distribution unit, so that the full-code stream video on the highway can be cloud in real time, and the cloud distribution unit supports multi-system transverse expansion and longitudinal expansion to meet the requirements of massive access and cross-region high-speed access, thus helping users to realize sharing, multi-user cooperation, real-time sharing, distributed storage and access authority control of video resources.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the real-time cloud system for the full-code stream video of the expressway comprises a camera module, a video gateway module, a distribution unit and a service module, wherein the camera module and the video gateway module are arranged on a road side or in a local environment, the camera module and the video gateway module are connected through data communication, the video gateway module is connected with the distribution unit through an external network in a data communication manner, and the service module is connected with the distribution unit through data communication; the video camera module is used for collecting main code streams, sub code streams and auxiliary code streams, acquiring and outputting collected data to the video gateway module, the video gateway module is used for decrypting the collected data, encoding and compressing the decoded data, packaging the encoded and compressed video stream data and sending the video stream data to the distribution unit, the distribution unit is used for issuing commands to control the video gateway module and the video camera module, cloud storage is carried out on the video stream data received from the video gateway module, and the service module is used for watching and sharing the data stored in the distribution unit.

The distribution unit comprises a source station module and an edge server module, wherein the source station module is connected with the video gateway module by data communication, the signal output end of the source station module is connected with the signal input end of the edge server module, and the signal output end of the service module is connected with the signal input end of the edge server module.

A real-time cloud-loading method for full code stream video of a highway, which comprises the following steps,

the method comprises the steps of (A) deploying a camera module and a video gateway module in a road side or local side environment, and connecting the camera module and the video gateway module in a data communication manner;

the method comprises the steps of (B) collecting a main code stream, a sub code stream and an auxiliary code stream by using a camera module, and obtaining and outputting collected data to a video gateway module;

the video gateway module decodes the acquired data, encodes and compresses the decoded data, encapsulates the encoded and compressed video stream data and sends the encapsulated and compressed video stream data to the distribution unit;

step (D), a distribution unit is utilized to issue a command to control the video gateway module and the camera module, and video stream data received from the video gateway module is subjected to cloud storage;

step (E), performing transverse expansion and longitudinal expansion on the distributing unit;

and (F) watching and sharing the video stream data stored in the distributing unit by the service module.

The method for real-time cloud loading of full code stream video of the expressway comprises the following steps of (A) deploying a camera module and a video gateway module in a road side or local side environment, and connecting the camera module and the video gateway module in a data communication mode, wherein the video gateway module is made of a video gateway based on ARM platform and low in power consumption, and the video gateway module is directly connected with the camera module in a butt joint mode.

The method for real-time cloud loading of the full-code stream video of the expressway comprises the following steps of (B) collecting a main code stream, a sub-code stream and an auxiliary code stream by using a camera module, and obtaining and outputting collected data to a video gateway module, wherein the camera module collects by using an RTSP/ONVIF protocol, and the main code stream is a first code stream, the sub-code stream is a second code stream and the auxiliary code stream is a third code stream.

The method comprises the steps of (C) decoding acquired data by a video gateway module, encoding and compressing the decoded data, packaging the video stream data after encoding and compressing, and sending the video stream data to a distribution unit, wherein the video gateway module adopts an RTSP/ONVIF protocol to pull and decode the video stream in the acquired data, re-encodes the video stream into an H.264 protocol, and simultaneously adjusts the video resolution and the video code rate and compresses, then adopts a real-time transmission protocol RTMP for packaging, and sends the video stream data to the distribution unit in a non-secure private line or the common Internet in a mode of encrypting a tunnel and a bidirectional white list.

In the foregoing method for real-time cloud loading of full code stream video on a highway, step (D), a distributing unit is utilized to issue a command to control a video gateway module and a camera module, and cloud storage is performed on video stream data received from the video gateway module, wherein the issued command can use a private control protocol to control the video gateway module, if the video gateway module receives the command, the video gateway module can dock collected data input by the camera module according to the command purpose, and perform corresponding decoding, conversion, compression and encapsulation operations on the collected data according to the command.

The method for cloud loading of the expressway full code stream video in real time comprises the steps of (E) carrying out transverse expansion and longitudinal expansion on a distribution unit,

step (E1), transversely expanding a distributing unit, wherein the transversely expanding is used for expanding the playing supporting capacity of a source station module, the transversely expanding is specifically used for distributing video stream data of the source station module to an edge server module, and each source station module can be distributed to a plurality of edge server modules;

and (E2) performing longitudinal expansion on the distributing unit, wherein the longitudinal expansion is used for expanding the uplink and push stream capability of the distributing unit, and the longitudinal expansion specifically comprises a virtual host for dividing the inside of the source station module into a plurality of different logic domains and distributing video stream data received from the video gateway module to a plurality of source station modules, wherein each of the plurality of virtual hosts and the plurality of source station modules inquire video streams with each other.

In the foregoing method for real-time cloud loading of full-code stream video on a highway, step (F), the service module views and shares the video stream data stored in the distribution unit, where the video stream data requested by the service module can be directionally searched in the distribution unit.

The beneficial effects of the invention are as follows:

(1) The video gateway module can be directly connected with the front-end camera module, has stable video stream transmission, light and simple equipment and flexible deployment, also supports the provision of high-performance and multi-format video acquisition, receiving, decoding, compression, recoding encapsulation and stream processing services in complex and key applications, and provides video stream real-time compression transcoding output, thus being connected with video monitoring equipment of a plurality of mainstream factories, supporting video multiplexing and forwarding, supporting various external network communication conditions, and realizing point-to-point safety and connectivity.

(2) The video gateway module supports video access of any network node, can be deployed at a physical position closer to the camera module, reduces network delay, and ensures massive video access and massive video playing capability by longitudinal expansion and transverse expansion of the distribution unit.

(3) The distribution unit of the invention can realize the following functions: the resource sharing and distributing unit can share video resources of a plurality of users, so that other users can use the video resources, and the maximum utilization of the resources is realized; the real-time sharing and distribution unit can support a plurality of users to read the same video resource, so that the multi-user collaborative work is realized, and the multi-user can simultaneously read the same video; the distributed storage and distribution unit can adopt a distributed storage technology to store video sources on a plurality of nodes, so that high reliability, high availability and high expansibility are realized; the distribution unit can set different access rights, such as public and private, for different video resources, so as to protect the security and confidentiality of the video resources; in summary, the method and the device can help users to realize sharing of video resources, multi-user cooperation, real-time sharing, distributed storage and control of access rights, so that the utilization rate and the safety of the video resources are improved.

(4) The invention realizes the quick construction of the cloud and the data center by the power assisting user, enables enterprises to effectively utilize all available network connections to meet all demands, saves the use cost of purchasing hardware by the user, disperses the pressure of backbone networks, realizes arbitrary interconnection among networks, obtains high-quality network connection and cloud key application access experience with lower cost, has the capacity of cloud storage, realizes the visualized monitoring, management and sharing from end to end of the whole network, and simultaneously reduces the daily working pressure of operation and maintenance personnel.

(5) The invention can provide full-code stream video and high-definition video real-time cloud-loading capability, concurrent access capability and video sharing service, realizes software and hardware decoupling, network link safety, zero configuration deployment and flexible collocation networking modes, helps companies and branch centers to easily cope with branch access problems, and realizes real physical isolation.

Drawings

FIG. 1 is a flow chart of a real-time cloud uploading system and method for highway full code stream video according to the present invention;

FIG. 2 is a schematic lateral expansion of a dispensing unit of the present invention;

FIG. 3 is a schematic diagram of a distribution unit longitudinally expanding virtual hosts of the present invention;

fig. 4 is a schematic diagram of a distribution unit longitudinally expanding source station module of the present invention.

Detailed Description

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

As shown in fig. 1, the full-code stream video real-time cloud-up system of the expressway comprises a camera module, a video gateway module, a distribution unit and a service module, wherein the camera module and the video gateway module are arranged on a road side or in a local environment, the camera module and the video gateway module are connected through data communication, the video gateway module is connected with the distribution unit through an external network in a data communication manner, and the service module is connected with the distribution unit through data communication; the video camera module is used for collecting main code streams, sub code streams and auxiliary code streams, acquiring and outputting collected data to the video gateway module, the video gateway module is used for decrypting the collected data, encoding and compressing the decoded data, packaging the encoded and compressed video stream data and sending the video stream data to the distribution unit, the distribution unit is used for issuing commands to control the video gateway module and the video camera module, cloud storage is carried out on the video stream data received from the video gateway module, and the service module is used for watching and sharing the data stored in the distribution unit.

Specifically, the distribution unit comprises a source station module and an edge server module, wherein the source station module is connected with the video gateway module in a data communication way, the signal output end of the source station module is connected with the signal input end of the edge server module, and the signal output end of the service module is connected with the signal input end of the edge server module.

A real-time cloud-loading method for full code stream video of a highway, which comprises the following steps,

and (A) deploying the camera module and the video gateway module in a road side or local side environment, and connecting the camera module and the video gateway module in a data communication way, wherein the video gateway module is made of a video gateway based on ARM platform low power consumption, and the video gateway module is directly connected with the camera module in a butt joint way.

And (B) acquiring the main code stream, the subcode stream and the auxiliary code stream by using a camera module, and obtaining and outputting acquired data to a video gateway module, wherein the camera module adopts an RTSP/ONVIF protocol for acquisition, and the main code stream is a first code stream, the subcode stream is a second code stream and the auxiliary code stream is a third code stream.

And (C) decoding the acquired data by a video gateway module, encoding and compressing the decoded data, and packaging and transmitting the video stream data after encoding and compressing to a distribution unit, wherein the video gateway module adopts an RTSP/ONVIF protocol to pull and decode the video stream in the acquired data, re-encodes the video stream into an H.264 protocol, simultaneously adjusts the video resolution and the video code rate and compresses, then adopts a real-time transmission protocol RTMP in packaging, and transmits the video stream data to the distribution unit in an encryption tunnel and a bidirectional white list mode if the video stream data is transmitted to a non-secure special line or the common Internet.

And (D) utilizing the distribution unit to issue a command to control the video gateway module and the camera module, and carrying out cloud storage on video stream data received from the video gateway module, wherein the issued command can use a private control protocol to control the video gateway module, and if the video gateway module receives the command, the video gateway module can butt-joint acquisition data input by the camera module according to the purpose of the command, and carrying out corresponding decoding, conversion, compression and encapsulation operation on the acquisition data according to the command.

The private control protocol is used for controlling the video gateway module to realize the switching of the dynamic image channel and the rapid switching of the code stream data of the cloud, so that the whole system is not required to be restarted, and the efficient cloud operation of various video code streams is realized.

A step (E) of performing lateral expansion and longitudinal expansion on the distributing unit, wherein the specific steps are as follows,

as shown in fig. 2, step (E1), performing lateral expansion on the distributing unit, where the lateral expansion is used to expand the capability of the source station module to support playing, and the lateral expansion is specifically to distribute video stream data of the source station module to an edge server module, and each source station module can be distributed to multiple edge server modules;

the lateral expansion is horizontally expandable, one source station module can support 7K edge nodes at most, if 7K nodes are insufficient, a multi-stage edge server can be used, and expansion capacity of countless nodes is completed.

As shown in fig. 3 and fig. 4, step (E2) is performed by longitudinally expanding the distributing unit, where the longitudinally expanding is used to expand the upstream and push capabilities of the distributing unit, and the longitudinally expanding specifically includes dividing the source station module into a plurality of virtual hosts with different logical domains and distributing the video stream data received from the video gateway module to a plurality of source station modules, where each of the plurality of virtual hosts and the plurality of source station modules queries each other for the video stream.

The cloud-up system can divide the video stream into different logic domains through the virtual machine of the distributing unit, for example, the 3K video access can be divided into 2 virtual hosts, so that the video stream of each virtual host has only 1.5K and can be pushed to 2 source station modules. The two source station modules can inquire the streams mutually, and if the video stream requested by the edge server module in the distribution unit is not in the source station module, the edge server module can be directed to the source station module with the video.

And (F) watching and sharing the video stream data stored in the distribution unit by the service module, wherein the video stream data requested by the service module can be directionally searched in the distribution unit.

In summary, in the system and the method for real-time cloud uploading of full code stream video on a highway, firstly, a camera module and a video gateway module are deployed in a road side or local side environment, the camera module and the video gateway module are connected in a data communication manner, then, a main code stream, a subcode stream and an auxiliary code stream are acquired by the camera module, acquired data are acquired and output to the video gateway module, then, the acquired data are decoded by the video gateway module, the decoded data are encoded and compressed, the encoded and compressed video stream data are packaged and sent to a distribution unit, then, a command is issued by the distribution unit to control the video gateway module and the camera module, the video stream data received from the video gateway module are subjected to cloud storage, then, the distribution unit is subjected to transverse expansion and longitudinal expansion, and finally, the service module views and shares the video stream data stored in the distribution unit; the invention realizes flexible video access, provides high-speed, massive and high concurrency capacity through the cloud distribution unit, can realize real-time cloud loading of the full-code stream video of the expressway, and supports multi-system transverse expansion and longitudinal expansion to meet the requirements of massive access and cross-region high-speed access, so that users can be helped to realize sharing of video resources, multi-user cooperation, real-time sharing, distributed storage and control of access rights, and the utilization rate and safety of the video resources are improved.

The foregoing has outlined and described the basic principles, features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides a real-time cloud system that goes up of highway full code stream video which characterized in that: the video gateway module is connected with the distribution unit in a data communication way by adopting an external network, and the service module is connected with the distribution unit in a data communication way;

the video camera module is used for collecting main code streams, sub code streams and auxiliary code streams, acquiring and outputting collected data to the video gateway module, the video gateway module is used for decrypting the collected data, encoding and compressing the decoded data, packaging the encoded and compressed video stream data and sending the video stream data to the distribution unit, the distribution unit is used for issuing commands to control the video gateway module and the video camera module, cloud storage is carried out on the video stream data received from the video gateway module, and the service module is used for watching and sharing the data stored in the distribution unit.

2. The real-time cloud system of highway full code stream video according to claim 1, wherein: the distribution unit comprises a source station module and an edge server module, wherein the source station module is connected with the video gateway module by adopting data communication, the signal output end of the source station module is connected with the signal input end of the edge server module, and the signal output end of the service module is connected with the signal input end of the edge server module.

3. A real-time cloud method for full-code stream video of an expressway, which is based on the system of any one of claims 1-2, and is characterized in that: comprises the steps of,

the method comprises the steps of (A) deploying a camera module and a video gateway module in a road side or local side environment, and connecting the camera module and the video gateway module in a data communication manner;

the method comprises the steps of (B) collecting a main code stream, a sub code stream and an auxiliary code stream by using a camera module, and obtaining and outputting collected data to a video gateway module;

the video gateway module decodes the acquired data, encodes and compresses the decoded data, encapsulates the encoded and compressed video stream data and sends the encapsulated and compressed video stream data to the distribution unit;

step (D), a distribution unit is utilized to issue a command to control the video gateway module and the camera module, and video stream data received from the video gateway module is subjected to cloud storage;

step (E), performing transverse expansion and longitudinal expansion on the distributing unit;

and (F) watching and sharing the video stream data stored in the distributing unit by the service module.

4. The real-time cloud method for full-code stream video of expressway according to claim 3, wherein the method comprises the following steps: and (A) deploying the camera module and the video gateway module in a road side or local side environment, and connecting the camera module and the video gateway module in a data communication way, wherein the video gateway module is made of a video gateway based on ARM platform low power consumption, and the video gateway module is directly connected with the camera module in a butt joint way.

5. The real-time cloud method for full-code stream video of expressway according to claim 4, wherein the method comprises the following steps: and (B) acquiring the main code stream, the subcode stream and the auxiliary code stream by using a camera module, and obtaining and outputting acquired data to a video gateway module, wherein the camera module adopts an RTSP/ONVIF protocol for acquisition, and the main code stream is a first code stream, the subcode stream is a second code stream and the auxiliary code stream is a third code stream.

6. The real-time cloud method for full-code stream video of expressway according to claim 5, wherein the method comprises the following steps: and (C) decoding the acquired data by a video gateway module, encoding and compressing the decoded data, and packaging and transmitting the video stream data after encoding and compressing to a distribution unit, wherein the video gateway module adopts an RTSP/ONVIF protocol to pull and decode the video stream in the acquired data, re-encodes the video stream into an H.264 protocol, simultaneously adjusts the video resolution and the video code rate and compresses, then adopts a real-time transmission protocol RTMP in packaging, and transmits the video stream data to the distribution unit in an encryption tunnel and a bidirectional white list mode if the video stream data is transmitted to a non-secure special line or the common Internet.

7. The real-time cloud method for full-code stream video of expressway according to claim 6, wherein the method comprises the following steps: and (D) utilizing the distribution unit to issue a command to control the video gateway module and the camera module, and carrying out cloud storage on video stream data received from the video gateway module, wherein the issued command can use a private control protocol to control the video gateway module, and if the video gateway module receives the command, the video gateway module can butt-joint acquisition data input by the camera module according to the purpose of the command, and carrying out corresponding decoding, conversion, compression and encapsulation operation on the acquisition data according to the command.

8. The real-time cloud method for full-code stream video of expressway according to claim 7, wherein the method comprises the following steps: a step (E) of performing lateral expansion and longitudinal expansion on the distributing unit, wherein the specific steps are as follows,

step (E1), transversely expanding a distributing unit, wherein the transversely expanding is used for expanding the playing supporting capacity of a source station module, the transversely expanding is specifically used for distributing video stream data of the source station module to an edge server module, and each source station module can be distributed to a plurality of edge server modules;

and (E2) performing longitudinal expansion on the distributing unit, wherein the longitudinal expansion is used for expanding the uplink and push stream capability of the distributing unit, and the longitudinal expansion specifically comprises a virtual host for dividing the inside of the source station module into a plurality of different logic domains and distributing video stream data received from the video gateway module to a plurality of source station modules, wherein each of the plurality of virtual hosts and the plurality of source station modules inquire video streams with each other.

9. The real-time cloud method for full-code stream video of expressway according to claim 8, wherein the method comprises the following steps: and (F) watching and sharing the video stream data stored in the distribution unit by the service module, wherein the video stream data requested by the service module can be directionally searched in the distribution unit.