CN117729188B - Water affair video acquisition system and method based on WebRTC - Google Patents

Abstract

The application relates to the technical field of computer communication, in particular to a water affair video acquisition system and method based on WebRTC, which acquire conference communication signaling according to a mode of determining a conference communication mode to be a conference communication participant through a conference initiating terminal; determining whether the conference communication signaling is an HTML5 conference communication signaling according to the completed HTML5 conference communication signaling group; transcoding the conference communication signaling according to the fact that the conference communication signaling is not the HTML5 conference communication signaling is determined, and obtaining a point-to-point channel; and intercepting the point-to-point channels in sequence and performing channel splicing processing on the intercepted channel sequence to obtain a water service video live link channel and a reference end link channel which are used for collecting the water service video. According to the video live broadcast and video conference seamless fusion functional design thought, under the application scene of the water conservancy and water service industry, multiple delivery modes such as an accessible system, a reusable component, an integratable code and the like are provided, and the problems of service integration and information island are solved.

Description

Water affair video acquisition system and method based on WebRTC

Technical Field

The application relates to the technical field of computer communication, in particular to a water affair video acquisition system and method based on WebRTC.

Background

In the field of Internet electronic commerce and entertainment, video live broadcast integrates rich elements such as images, characters, sounds and the like, has excellent sound and shape and excellent effect, and gradually becomes a mainstream display and expression mode. The video is transmitted truly and vividly, so that a strong field sense is created, the transmission effect of impressing and lasting memory is achieved, and the video can be advertised and displayed truly, intuitively and comprehensively, but in the traditional industry and the administrative management work field, the video live broadcasting technology is a fresh object, and the video live broadcasting technology cannot fully penetrate and fuse in, plays the due role and achieves the benefit.

Indeed, some applications are fused from the practical function perspective, but are basically provided in a complete and independent application mode, users are limited in specific applications or specific closed technical ecology, are not allowed technically or can be integrated with a business system in a customized mode at great cost, and finally are switched among a plurality of applications, and all of interface styles, operation logics, functional flows, data and the like are all administrative and are in a split state.

The existing mainstream video live broadcast and video conference implementation scheme is basically implemented in an original conference initiating terminal mode based on an RTC protocol technology on a PC terminal or a mobile terminal, and meanwhile, the problems that the development and implementation environment is high and the corresponding functions are difficult to fuse with other service functions or systems are also solved while the high real-time performance and the high performance are met.

Disclosure of Invention

The main purpose of the application is to provide a video live broadcast and conference solution of an HTML5 mode with better compatibility and fusion, and replace a common native application or SDK mode, so that the video live broadcast and conference solution can be seamlessly fused and integrated with a PC-end WEB system, a mobile website, a mobile native App, a WeChat applet and the like.

In order to achieve the above purpose, the present application provides the following technical solutions:

according to a first aspect of the invention, the invention claims a water service video acquisition method based on WebRTC, comprising:

collecting conference communication signaling according to the mode of determining the conference communication mode to be the conference communication participant through the conference initiating terminal;

collecting a completed HTML5 conference communication signaling group aiming at the participant;

determining whether the conference communication signaling is an HTML5 conference communication signaling according to the completed HTML5 conference communication signaling group;

transcoding the conference communication signaling according to the fact that the conference communication signaling is not the HTML5 conference communication signaling is determined, and obtaining a point-to-point channel;

intercepting the point-to-point channels in sequence according to the video stream channels to obtain intercepted channel sequences;

performing channel splicing processing on the intercepted channel sequence to obtain a water service live video link channel and a reference end link channel;

and acquiring the water service video according to the water service video live link channel and the reference terminal link channel.

Further, the performing channel splicing processing on the intercepted channel sequence to obtain a water service live video link channel and a reference end link channel includes:

collecting a video type link channel group in the reference terminal;

splicing the video type link channel groups by using a video stream format to obtain spliced video type link channel groups;

detecting a spliced video type link channel matched with the point-to-point channel from the spliced video type link channel group to serve as a video spliced video type link channel;

determining a video type link channel corresponding to the video type link channel after video splicing as the water service video live link channel;

collecting a server link channel group corresponding to the water service video live link channel;

splicing each server link channel in the water service live video link channel and the server link channel group by using a video stream format to generate a spliced channel, so as to obtain a spliced channel group;

detecting a spliced channel matched with the point-to-point channel from the spliced channel group to be used as a video spliced channel;

and respectively determining the video type link channel and the server link channel corresponding to the video spliced channel as a water service video live link channel and a reference terminal link channel.

Further, after determining whether the conference communication signaling is HTML5 conference communication signaling according to the completed HTML5 conference communication signaling group, the method further includes:

and carrying out HTML5 conference communication early warning on the conference communication signaling according to the fact that the conference communication signaling is the HTML5 conference communication signaling, and transmitting the conference communication signaling to a monitoring terminal.

Further, the method further comprises:

collecting a search signaling group according to a mode of determining that the conference communication mode is a conference communication metadata server;

detecting a search signaling meeting a video stream condition from the search signaling group as a video search signaling, wherein the video stream condition is a condition that a data table channel in the search signaling comprises a first video stream channel;

synchronizing the video search signaling to obtain a synchronized video search signaling;

and acquiring the water service video according to the synchronized video searching signaling.

Further, the synchronizing the video search signaling to obtain a synchronized video search signaling includes:

performing segmentation processing on the video search signaling to obtain a channel group;

transcoding an attribute channel corresponding to a second video stream channel according to the fact that the channel group comprises the second video stream channel;

integrating a first video stream channel in the video search signaling according to transcoding to the water service video live link channel and the reference end link channel to obtain a first integrated video search signaling, wherein an attribute channel of the first video stream channel in the first integrated video search signaling is the water service video live link channel;

and synchronizing the first integrated video search signaling to obtain a synchronized video search signaling, wherein an attribute channel of a second video stream channel in the synchronized video search signaling is the reference end link channel.

Further, after integrating the first video stream channel in the video search signaling according to the transcoding to the water service live video link channel and the reference terminal link channel to obtain a first integrated video search signaling, the method further includes:

integrating a first video stream channel in the video search signaling according to the channel of the live link of the water service video which is not transcoded to obtain a second integrated video search signaling;

and determining the attribute channel of the first video stream channel in the second integrated video search signaling as a default video type link channel.

According to a second aspect of the present invention, the present invention claims a WebRTC-based water video acquisition system, comprising:

the first acquisition module is set to acquire conference communication signaling according to a mode of determining that a conference communication mode is a conference communication participant through a conference initiating terminal;

the second acquisition module is set to acquire a completed HTML5 conference communication signaling group aiming at the participant;

a determining module configured to determine whether the conference communication signaling is HTML5 conference communication signaling according to the completed HTML5 conference communication signaling group;

the transcoding module is set to transcode the conference communication signaling according to the fact that the conference communication signaling is not the HTML5 conference communication signaling, and a point-to-point channel is obtained;

the intercepting module is set to intercept the point-to-point channels in turn according to the video stream channels to obtain intercepted channel sequences;

the channel splicing processing module is set to carry out channel splicing processing on the intercepted channel sequence to obtain a water service live video link channel and a reference end link channel;

and the third acquisition module is set to acquire the water service video according to the water service video live link channel and the reference terminal link channel.

Further, the channel splicing processing module includes:

collecting a video type link channel group in the reference terminal;

splicing the video type link channel groups by using a video stream format to obtain spliced video type link channel groups;

detecting a spliced video type link channel matched with the point-to-point channel from the spliced video type link channel group to serve as a video spliced video type link channel;

determining a video type link channel corresponding to the video type link channel after video splicing as the water service video live link channel;

collecting a server link channel group corresponding to the water service video live link channel;

splicing each server link channel in the water service live video link channel and the server link channel group by using a video stream format to generate a spliced channel, so as to obtain a spliced channel group;

detecting a spliced channel matched with the point-to-point channel from the spliced channel group to be used as a video spliced channel;

and respectively determining the video type link channel and the server link channel corresponding to the video spliced channel as a water service video live link channel and a reference terminal link channel.

Further, after the transcoding module determines whether the conference communication signaling is an HTML5 conference communication signaling according to the completed HTML5 conference communication signaling group, the method further includes:

according to the conference communication signaling is determined to be the HTML5 conference communication signaling, carrying out HTML5 conference communication early warning on the conference communication signaling, and transmitting the conference communication signaling to a monitoring terminal;

collecting a search signaling group according to a mode of determining that the conference communication mode is a conference communication metadata server;

detecting a search signaling meeting a video stream condition from the search signaling group as a video search signaling, wherein the video stream condition is a condition that a data table channel in the search signaling comprises a first video stream channel;

synchronizing the video search signaling to obtain a synchronized video search signaling;

and acquiring the water service video according to the synchronized video searching signaling.

Further, the synchronizing the video search signaling to obtain a synchronized video search signaling includes:

performing segmentation processing on the video search signaling to obtain a channel group;

transcoding an attribute channel corresponding to a second video stream channel according to the fact that the channel group comprises the second video stream channel;

integrating a first video stream channel in the video search signaling according to transcoding to the water service video live link channel and the reference end link channel to obtain a first integrated video search signaling, wherein an attribute channel of the first video stream channel in the first integrated video search signaling is the water service video live link channel;

synchronizing the first integrated video search signaling to obtain a synchronized video search signaling, wherein an attribute channel of a second video stream channel in the synchronized video search signaling is the reference end link channel;

and integrating a first video stream channel in the video search signaling according to the transcoding to the water service video live link channel and the reference terminal link channel to obtain a first integrated video search signaling, and further comprising:

integrating a first video stream channel in the video search signaling according to the channel of the live link of the water service video which is not transcoded to obtain a second integrated video search signaling;

and determining the attribute channel of the first video stream channel in the second integrated video search signaling as a default video type link channel.

The application relates to the technical field of technical computer communication, in particular to a water affair video acquisition system and method based on WebRTC, which acquire conference communication signaling according to a mode of determining a conference communication mode to be a conference communication participant through a conference initiating terminal; determining whether the conference communication signaling is an HTML5 conference communication signaling according to the completed HTML5 conference communication signaling group; transcoding the conference communication signaling according to the fact that the conference communication signaling is not the HTML5 conference communication signaling is determined, and obtaining a point-to-point channel; and intercepting the point-to-point channels in sequence and performing channel splicing processing on the intercepted channel sequence to obtain a water service video live link channel and a reference end link channel which are used for collecting the water service video. According to the video live broadcast and video conference seamless fusion functional design thought, under the application scene of the water conservancy and water service industry, multiple delivery modes such as an accessible system, a reusable component, an integratable code and the like are provided, and the problems of service integration and information island are solved.

Drawings

FIG. 1 is a workflow diagram of a WebRTC-based water video capture method in accordance with embodiments of the present application;

FIG. 2 is a second workflow diagram of a WebRTC-based water video capture method in accordance with an embodiment of the present application;

FIG. 3 is a third workflow diagram of a webRTC-based water video capture method in accordance with an embodiment of the present application;

FIG. 4 is a fourth working flowchart of a webRTC-based water video acquisition method according to an embodiment of the present application;

FIG. 5 is a fifth workflow diagram of a webRTC-based water video capture method in accordance with an embodiment of the present application;

fig. 6 is a block diagram of a WebRTC-based water video capture system according to an embodiment of the present application.

Detailed Description

The following description of the technical solutions in the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

The terms "first," "second," "third," and the like in this application are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "first," "second," and "third" may explicitly or implicitly include at least one such feature. In the description of the present application, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise. All directional indications (such as up, down, left, right, front, back … …) in the embodiments of the present application are merely used to explain the relative positional relationship, movement, etc. between the components in a particular gesture (as shown in the drawings), and if the particular gesture changes, the directional indication changes accordingly. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, system, article, or apparatus that comprises a list of steps or modules is not limited to only those steps or modules but may include other steps or modules not expressly listed or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the present application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

Embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While certain embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete. It should be understood that the drawings and embodiments of the present disclosure are for illustration purposes only and are not intended to limit the scope of the present disclosure.

The relevant terms referred to in this scheme are explained as follows:

HTML5: HTML5 is an abbreviation of hyperspectruplaanguage 5, and HTML5 technology combines and innovates the related standard of HTML4.01, meets the requirements of modern network development, and is formally released in 2008. HTML5 is composed of different technologies that find very wide application in the internet, providing a standard machine for more enhanced web applications. The syntactic features of HTML5 are more obvious than conventional techniques and incorporate the content of SVG. The multimedia content can be processed more conveniently by using the content in the webpage, and other elements are combined in the HTML5 to adjust and modify the original functions so as to perform standardization work. HTML5 has formed a stable version in 2012. On day 28 of 10, 2014, W3C issued the final version of HTML 5.

WebRTC: webRTC (WebReal-time communications) is a real-time communication technology that allows web applications or sites to establish Peer-to-Peer (Peer-to-Peer) connections between browsers without intermediation, enabling the transmission of video and/or audio streams or any other data. These criteria, contained by WebRTC, make it possible for users to create Peer-to-Peer (Peer-to-Peer) data sharing and teleconferencing without having to install any plug-in or third party software.

AngularJS: the AngullarJS is an application design framework and development platform and is used for creating efficient, complex and exquisite single-page application, and HTML is expanded through new attributes and expressions, so that a set of framework, various platforms, a mobile terminal and a desktop terminal are realized. The angullarjs has a number of characteristics, the most central of which is: MVVM, modular, automated bi-directional data binding, semantical tagging, dependency injection, and so forth.

Vue.js: is a JavaScript framework for building user interfaces. It builds on standard HTML, CSS, and JavaScript, and provides a set of declarative, componentized programming models that help developers develop user interfaces efficiently.

WebComponents: is a different set of technologies that allows you to create reusable custom elements (their functionality is encapsulated outside your code) and use them in your web application, consisting of three main technologies that can be used together to create custom elements that encapsulate functionality, can be reused wherever you like, and does not have to worry about code conflicts.

STUN: STUN (SessionTraversalUtilitiesforNAT, NAT session traversal application) is a network protocol that allows a conference initiator located behind a NAT (or multiple NATs) to find its own public network address, to find out what type of NAT it is located behind and to which Internet port the NAT is bound for a local port. This information is used to create UDP communications between two hosts that are simultaneously behind the NAT router. The protocol is defined by RFC 5389.

SIP: SIP (SessionInitiationProtocol) is an application layer signaling control protocol. For creating, modifying and releasing sessions of one or more participants. These sessions may be Internet multimedia conferences, IP telephony or multimedia distribution. Participants to a session may communicate through multicast (multicast), mesh unicast (unicast), or a mixture of both.

The present disclosure will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

According to a first embodiment of the present invention, the present invention claims a WebRTC-based water video acquisition method, referring to fig. 1, including:

collecting conference communication signaling according to the mode of determining the conference communication mode to be the conference communication participant through the conference initiating terminal;

collecting a completed HTML5 conference communication signaling group aiming at the participant;

determining whether the conference communication signaling is an HTML5 conference communication signaling according to the completed HTML5 conference communication signaling group;

transcoding the conference communication signaling according to the fact that the conference communication signaling is not the HTML5 conference communication signaling is determined, and obtaining a point-to-point channel;

intercepting the point-to-point channels in sequence according to the video stream channels to obtain intercepted channel sequences;

performing channel splicing processing on the intercepted channel sequence to obtain a water service live video link channel and a reference end link channel;

and acquiring the water service video according to the water service video live link channel and the reference terminal link channel.

In this embodiment, the conference initiating terminal sends out an SIP signaling to the SIP server, establishes a conference process, and provides a conference code to the participant terminal, and the participant terminal sends out an SIP instruction to the SIP server through the conference code to acquire a conference process number;

the conference initiating terminal and the participant terminal are both connected with the STUN server, are negotiated by the STUN server, and establish a point-to-point tunnel through NAT;

and through the established point-to-point tunnel channel, the point-to-point communication link between all the participant terminals of the conference is realized, all the participant terminals acquire local real-time audio and video pictures and send the local real-time audio and video pictures to all the participant terminals in a point-to-point mode through the link, and all the participant terminals receive video streams sent by other terminals and play the video streams.

Further, referring to fig. 2, the performing channel splicing processing on the intercepted channel sequence to obtain a live link channel and a link channel of a reference terminal of the water service video includes:

collecting a video type link channel group in the reference terminal;

splicing the video type link channel groups by using a video stream format to obtain spliced video type link channel groups;

detecting a spliced video type link channel matched with the point-to-point channel from the spliced video type link channel group to serve as a video spliced video type link channel;

determining a video type link channel corresponding to the video type link channel after video splicing as the water service video live link channel;

collecting a server link channel group corresponding to the water service video live link channel;

splicing each server link channel in the water service live video link channel and the server link channel group by using a video stream format to generate a spliced channel, so as to obtain a spliced channel group;

detecting a spliced channel matched with the point-to-point channel from the spliced channel group to be used as a video spliced channel;

and respectively determining the video type link channel and the server link channel corresponding to the video spliced channel as a water service video live link channel and a reference terminal link channel.

Further, after determining whether the conference communication signaling is HTML5 conference communication signaling according to the completed HTML5 conference communication signaling group, the method further includes:

and carrying out HTML5 conference communication early warning on the conference communication signaling according to the fact that the conference communication signaling is the HTML5 conference communication signaling, and transmitting the conference communication signaling to a monitoring terminal.

Further, referring to fig. 3, the method further includes:

collecting a search signaling group according to a mode of determining that the conference communication mode is a conference communication metadata server;

detecting a search signaling meeting a video stream condition from the search signaling group as a video search signaling, wherein the video stream condition is a condition that a data table channel in the search signaling comprises a first video stream channel;

synchronizing the video search signaling to obtain a synchronized video search signaling;

and acquiring the water service video according to the synchronized video searching signaling.

Further, referring to fig. 4, the step of synchronizing the video search signaling to obtain synchronized video search signaling includes:

performing segmentation processing on the video search signaling to obtain a channel group;

transcoding an attribute channel corresponding to a second video stream channel according to the fact that the channel group comprises the second video stream channel;

integrating a first video stream channel in the video search signaling according to transcoding to the water service video live link channel and the reference end link channel to obtain a first integrated video search signaling, wherein an attribute channel of the first video stream channel in the first integrated video search signaling is the water service video live link channel;

and synchronizing the first integrated video search signaling to obtain a synchronized video search signaling, wherein an attribute channel of a second video stream channel in the synchronized video search signaling is the reference end link channel.

Further, after integrating the first video stream channel in the video search signaling according to the transcoding to the water service live video link channel and the reference terminal link channel to obtain a first integrated video search signaling, the method further includes:

integrating a first video stream channel in the video search signaling according to the channel of the live link of the water service video which is not transcoded to obtain a second integrated video search signaling;

and determining the attribute channel of the first video stream channel in the second integrated video search signaling as a default video type link channel.

In this embodiment, referring to fig. 5, when the live broadcast function is executed, the live broadcast end pushes the live broadcast end to the streaming media server through WebRTC, and obtains the historical image playback and WebRTC pull real-time video playing of the HTTP service through transcoding video recording.

According to a second embodiment of the present invention, referring to fig. 6, the present invention claims a WebRTC-based water video capture system, including:

the first acquisition module is set to acquire conference communication signaling according to a mode of determining that a conference communication mode is a conference communication participant through a conference initiating terminal;

the second acquisition module is set to acquire a completed HTML5 conference communication signaling group aiming at the participant;

a determining module configured to determine whether the conference communication signaling is HTML5 conference communication signaling according to the completed HTML5 conference communication signaling group;

the transcoding module is set to transcode the conference communication signaling according to the fact that the conference communication signaling is not the HTML5 conference communication signaling, and a point-to-point channel is obtained;

the intercepting module is set to intercept the point-to-point channels in turn according to the video stream channels to obtain intercepted channel sequences;

the channel splicing processing module is set to carry out channel splicing processing on the intercepted channel sequence to obtain a water service live video link channel and a reference end link channel;

and the third acquisition module is set to acquire the water service video according to the water service video live link channel and the reference terminal link channel.

Further, the channel splicing processing module includes:

collecting a video type link channel group in the reference terminal;

splicing the video type link channel groups by using a video stream format to obtain spliced video type link channel groups;

detecting a spliced video type link channel matched with the point-to-point channel from the spliced video type link channel group to serve as a video spliced video type link channel;

determining a video type link channel corresponding to the video type link channel after video splicing as the water service video live link channel;

collecting a server link channel group corresponding to the water service video live link channel;

splicing each server link channel in the water service live video link channel and the server link channel group by using a video stream format to generate a spliced channel, so as to obtain a spliced channel group;

detecting a spliced channel matched with the point-to-point channel from the spliced channel group to be used as a video spliced channel;

and respectively determining the video type link channel and the server link channel corresponding to the video spliced channel as a water service video live link channel and a reference terminal link channel.

Further, after the transcoding module determines whether the conference communication signaling is an HTML5 conference communication signaling according to the completed HTML5 conference communication signaling group, the method further includes:

according to the conference communication signaling is determined to be the HTML5 conference communication signaling, carrying out HTML5 conference communication early warning on the conference communication signaling, and transmitting the conference communication signaling to a monitoring terminal;

collecting a search signaling group according to a mode of determining that the conference communication mode is a conference communication metadata server;

detecting a search signaling meeting a video stream condition from the search signaling group as a video search signaling, wherein the video stream condition is a condition that a data table channel in the search signaling comprises a first video stream channel;

synchronizing the video search signaling to obtain a synchronized video search signaling;

and acquiring the water service video according to the synchronized video searching signaling.

Further, the synchronizing the video search signaling to obtain a synchronized video search signaling includes:

performing segmentation processing on the video search signaling to obtain a channel group;

transcoding an attribute channel corresponding to a second video stream channel according to the fact that the channel group comprises the second video stream channel;

integrating a first video stream channel in the video search signaling according to transcoding to the water service video live link channel and the reference end link channel to obtain a first integrated video search signaling, wherein an attribute channel of the first video stream channel in the first integrated video search signaling is the water service video live link channel;

synchronizing the first integrated video search signaling to obtain a synchronized video search signaling, wherein an attribute channel of a second video stream channel in the synchronized video search signaling is the reference end link channel;

and integrating a first video stream channel in the video search signaling according to the transcoding to the water service video live link channel and the reference terminal link channel to obtain a first integrated video search signaling, and further comprising:

integrating a first video stream channel in the video search signaling according to the channel of the live link of the water service video which is not transcoded to obtain a second integrated video search signaling;

and determining the attribute channel of the first video stream channel in the second integrated video search signaling as a default video type link channel.

In the several embodiments provided in this application, it should be understood that the disclosed systems, and methods may be implemented in other ways. For example, the system embodiments described above are merely illustrative, e.g., the division of modules is merely a logical function division, and there may be additional divisions of actual implementation, e.g., multiple modules or components may be combined or integrated into another system, or some features may be omitted, or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with respect to each other may be through some interface, indirect coupling or communication connection of systems or modules, electrical, mechanical, or other form.

In addition, each functional module in each embodiment of the present application may be integrated into one processing module, or each module may exist alone physically, or two or more modules may be integrated into one module. The integrated modules may be implemented in hardware or in software functional modules. The foregoing is only the embodiments of the present application, and is not intended to limit the scope of the patent application, and all equivalent structures or equivalent processes using the contents of the specification and drawings of the present application or directly or indirectly applied to other related technical fields are included in the scope of the patent protection of the present application.

The embodiments of the invention have been described in detail above, but they are merely examples, and the present application is not limited to the above-described embodiments. It will be apparent to those skilled in the art that any equivalent modifications or substitutions for this invention are within the scope of this application, and therefore, such equivalent changes and modifications, improvements, etc. are intended to be within the scope of this application without departing from the spirit and principles of this application.

Claims (10)

1. A water affair video acquisition method based on WebRTC comprises the following steps:

collecting conference communication signaling according to the mode of determining the conference communication mode to be the conference communication participant through the conference initiating terminal;

collecting a completed HTML5 conference communication signaling group aiming at the participant;

determining whether the conference communication signaling is an HTML5 conference communication signaling according to the completed HTML5 conference communication signaling group;

transcoding the conference communication signaling according to the fact that the conference communication signaling is not the HTML5 conference communication signaling is determined, and obtaining a point-to-point channel;

intercepting the point-to-point channels in sequence according to the video stream channels to obtain intercepted channel sequences;

performing channel splicing processing on the intercepted channel sequence to obtain a water service live video link channel and a reference end link channel;

and acquiring the water service video according to the water service video live link channel and the reference terminal link channel.

2. The WebRTC-based water service video acquisition method of claim 1, wherein the performing channel splicing processing on the intercepted channel sequence to obtain a water service video live link channel and a reference end link channel includes:

collecting a video type link channel group in the reference terminal;

splicing the video type link channel groups by using a video stream format to obtain spliced video type link channel groups;

detecting a spliced video type link channel matched with the point-to-point channel from the spliced video type link channel group to serve as a video spliced video type link channel;

determining a video type link channel corresponding to the video type link channel after video splicing as the water service video live link channel;

collecting a server link channel group corresponding to the water service video live link channel;

splicing each server link channel in the water service live video link channel and the server link channel group by using a video stream format to generate a spliced channel, so as to obtain a spliced channel group;

detecting a spliced channel matched with the point-to-point channel from the spliced channel group to be used as a video spliced channel;

and respectively determining the video type link channel and the server link channel corresponding to the video spliced channel as a water service video live link channel and a reference terminal link channel.

3. The WebRTC-based water video collection method of claim 1, wherein after the determining whether the conference communication signaling is an HTML5 conference communication signaling according to the completed HTML5 conference communication signaling group, further comprising:

and carrying out HTML5 conference communication early warning on the conference communication signaling according to the fact that the conference communication signaling is the HTML5 conference communication signaling, and transmitting the conference communication signaling to a monitoring terminal.

4. The WebRTC-based water video collection method of claim 1, wherein the method further includes:

collecting a search signaling group according to a mode of determining that the conference communication mode is a conference communication metadata server;

detecting a search signaling meeting a video stream condition from the search signaling group as a video search signaling, wherein the video stream condition is a condition that a data table channel in the search signaling comprises a first video stream channel;

synchronizing the video search signaling to obtain a synchronized video search signaling;

and acquiring the water service video according to the synchronized video searching signaling.

5. The WebRTC-based water video collection method of claim 4, wherein the synchronizing the video search signaling to obtain the synchronized video search signaling includes:

performing segmentation processing on the video search signaling to obtain a channel group;

transcoding an attribute channel corresponding to a second video stream channel according to the fact that the channel group comprises the second video stream channel;

integrating a first video stream channel in the video search signaling according to transcoding to the water service video live link channel and the reference end link channel to obtain a first integrated video search signaling, wherein an attribute channel of the first video stream channel in the first integrated video search signaling is the water service video live link channel;

and synchronizing the first integrated video search signaling to obtain a synchronized video search signaling, wherein an attribute channel of a second video stream channel in the synchronized video search signaling is the reference end link channel.

6. The WebRTC-based water video collection method of claim 5, wherein integrating a first video streaming channel in the video search signaling to obtain a first integrated video search signaling after transcoding to the water video live link channel and the reference link channel according to the transcoding, further comprises:

integrating a first video stream channel in the video search signaling according to the channel of the live link of the water service video which is not transcoded to obtain a second integrated video search signaling;

and determining the attribute channel of the first video stream channel in the second integrated video search signaling as a default video type link channel.

7. A WebRTC-based water video acquisition system, comprising:

the first acquisition module is set to acquire conference communication signaling according to a mode of determining that a conference communication mode is a conference communication participant through a conference initiating terminal;

the second acquisition module is set to acquire a completed HTML5 conference communication signaling group aiming at the participant;

a determining module configured to determine whether the conference communication signaling is HTML5 conference communication signaling according to the completed HTML5 conference communication signaling group;

the transcoding module is set to transcode the conference communication signaling according to the fact that the conference communication signaling is not the HTML5 conference communication signaling, and a point-to-point channel is obtained;

the intercepting module is set to intercept the point-to-point channels in turn according to the video stream channels to obtain intercepted channel sequences;

the channel splicing processing module is set to carry out channel splicing processing on the intercepted channel sequence to obtain a water service live video link channel and a reference end link channel;

and the third acquisition module is set to acquire the water service video according to the water service video live link channel and the reference terminal link channel.

8. The WebRTC-based water video acquisition system of claim 7, wherein the channel splice processing module includes:

collecting a video type link channel group in the reference terminal;

splicing the video type link channel groups by using a video stream format to obtain spliced video type link channel groups;

detecting a spliced video type link channel matched with the point-to-point channel from the spliced video type link channel group to serve as a video spliced video type link channel;

determining a video type link channel corresponding to the video type link channel after video splicing as the water service video live link channel;

collecting a server link channel group corresponding to the water service video live link channel;

splicing each server link channel in the water service live video link channel and the server link channel group by using a video stream format to generate a spliced channel, so as to obtain a spliced channel group;

detecting a spliced channel matched with the point-to-point channel from the spliced channel group to be used as a video spliced channel;

and respectively determining the video type link channel and the server link channel corresponding to the video spliced channel as a water service video live link channel and a reference terminal link channel.

9. The WebRTC-based water video collection system of claim 8, wherein after the transcoding module determines whether the conference communication signaling is HTML5 conference communication signaling based on the completed HTML5 conference communication signaling group, further comprising:

according to the conference communication signaling is determined to be the HTML5 conference communication signaling, carrying out HTML5 conference communication early warning on the conference communication signaling, and transmitting the conference communication signaling to a monitoring terminal;

collecting a search signaling group according to a mode of determining that the conference communication mode is a conference communication metadata server;

detecting a search signaling meeting a video stream condition from the search signaling group as a video search signaling, wherein the video stream condition is a condition that a data table channel in the search signaling comprises a first video stream channel;

synchronizing the video search signaling to obtain a synchronized video search signaling;

and acquiring the water service video according to the synchronized video searching signaling.

10. The WebRTC-based water video collection system of claim 9, wherein the synchronizing the video search signaling to obtain the synchronized video search signaling includes:

performing segmentation processing on the video search signaling to obtain a channel group;

transcoding an attribute channel corresponding to a second video stream channel according to the fact that the channel group comprises the second video stream channel;

integrating a first video stream channel in the video search signaling according to transcoding to the water service video live link channel and the reference end link channel to obtain a first integrated video search signaling, wherein an attribute channel of the first video stream channel in the first integrated video search signaling is the water service video live link channel;

synchronizing the first integrated video search signaling to obtain a synchronized video search signaling, wherein an attribute channel of a second video stream channel in the synchronized video search signaling is the reference end link channel;

and integrating a first video stream channel in the video search signaling according to the transcoding to the water service video live link channel and the reference terminal link channel to obtain a first integrated video search signaling, and further comprising:

integrating a first video stream channel in the video search signaling according to the channel of the live link of the water service video which is not transcoded to obtain a second integrated video search signaling;

and determining the attribute channel of the first video stream channel in the second integrated video search signaling as a default video type link channel.