CN116132692A - Method and system for processing plan data based on WEB terminal - Google Patents

Abstract

The application relates to a method and a system for processing plan data based on a WEB terminal, wherein the method comprises the following steps: the WEB terminal establishes and opens a plan, and generates plan data to be sent to the guide and control server; when the plan is in an open state, the guide and control server sends a first request for recording the plan to the recording server according to the plan data, wherein the first request comprises a device list, a device IP address and a device port of all audio and video decoding devices to be recorded in the plan; the recording server sends a second request to the audio/video decoding equipment according to the first request, acquires an audio/video input stream for recording and storing, and sends recording information to the guide and control server; and the guiding and controlling server sends the received recording information to all WEB terminals. The full scene recording of the plan is realized, in the open state of the plan, the output contents of all audio and video decoding devices in the plan are automatically recorded, recording files are generated, and the recording files are uniformly related to the execution records of the plan for management.

Description

Method and system for processing plan data based on WEB terminal

Technical Field

The application relates to the technical field of audio and video data processing, in particular to a method and a system for processing plan data based on a WEB terminal, which are particularly suitable for recording and playing back the plan data of audio and video.

Background

The audio push technology is a technology for associating an encoding device account of an audio encoding device with a decoding device account of an audio decoding device, and when the audio encoding device and the audio decoding device are associated, the audio encoding device sends an audio input stream to the audio decoding device for playing. The video pushing technology is a technology for associating an encoding device account of a video encoding device with a decoding device account of a video decoding device, and when the video encoding device and the video decoding device are associated, the video encoding device sends an input stream of video to the video decoding device for playing.

The audio encoding apparatus and the video encoding apparatus are collectively referred to as audio-video encoding apparatus, the audio decoding apparatus and the video decoding apparatus are collectively referred to as audio-video decoding apparatus, and the audio and the video are collectively referred to as audio-video. When a plurality of audio and video encoding devices and a plurality of audio and video decoding devices exist in the system, the system can establish a plurality of audio and video pushing, but each group of audio and video pushing requires a user to perform association operation from the terminal one by one, so that one audio and video encoding device is correspondingly associated with one audio and video decoding device. In order to reduce the establishment of the repeated audio and video push relationship, a preset plurality of groups of audio and video push relationships are used for the server, when the audio and video push is required to be established, the user terminal sends a message to the server, and the server automatically establishes the pre-stored audio and video push relationship, which is the scheme technology.

The plan is used for managing a plurality of groups of audio and video pushing relations, when the audio and video pushing plan is executed, all audio and video pushing in the plan is executed at the same time, and the user terminal realizes one-key opening or ending of all the audio and video pushing relations in the plan.

With the development of audio and video technology, it is desirable to record the execution process of a plan during execution and control of the plan. After the execution of the plan is completed, the historical plan execution record can be queried and played back, and the playback is also supported to be paused, stopped, set at double speed, skip control, mark points and the like in the playback process. In the face of complex scenes, the application researches how to quickly and effectively send push information (audio and video signal sources collected by a microphone, a camera and the like) to a required user, record the push information and quickly play back the recorded push information.

Disclosure of Invention

The purpose of the application is to provide a method for processing plan data based on a WEB terminal, which comprises the following steps:

the WEB terminal establishes and opens a plan, and generates plan data to be sent to the guide and control server;

when the plan is in an open state, the guide and control server sends a first request for recording the plan to the recording server according to the plan data, wherein the first request comprises a device list, a device IP address and a device port of all audio and video decoding devices to be recorded in the plan;

the recording server sends a second request to the audio/video decoding equipment according to the first request, acquires an audio/video input stream for recording and storing, and sends recording information to the guide and control server;

and the guiding and controlling server sends the received recording information to all WEB terminals.

The technical scheme of the application has the technical effects that the full scene recording of the plan is realized, in the open state of the plan, the output contents of all audio and video decoding equipment in the plan are automatically recorded, recording files are generated, and the recording files are uniformly associated to the execution records of the plan for management.

In one embodiment of the technical solution, the step of establishing and starting the plan by the WEB terminal and generating the data transmission guiding and controlling server of the plan includes:

the Web terminal registers a login user, an equipment account number of the audio/video coding equipment and an equipment account number of the audio/video decoding equipment to a soft exchange server, and the soft exchange server sends the login state of the login user, the equipment IP addresses and the equipment ports which correspond to all the equipment account numbers and are based on the SIP protocol to a guide control server;

the Web terminal establishes an association relation between the audio and video encoding equipment and the audio and video decoding equipment, and generates plan data to the guide and control server;

and the guide control server executes the opening plan according to the opening plan request of the Web terminal.

In one embodiment of the technical scheme, the plan data includes a plan number with a unique identifier, an equipment IP address and an equipment port, an association relationship between an audio/video encoding equipment and an audio/video decoding equipment, and push information.

In one embodiment of the present invention, the step of the recording server sending a second request to the audio/video decoding device according to the first request to obtain an audio/video input stream for recording and storing, and sending recording information to the pilot control server includes:

after receiving a first request for recording a plan, the recording server establishes a catalog for recording the plan, and establishes a subdirectory with the equipment account as the name for each equipment account of the audio/video decoding equipment to be recorded in the catalog;

the recording server sends a second request to the audio/video decoding equipment to acquire an audio/video input stream, generates a recording file and stores the recording file in the subdirectory, and generates recording information, wherein the recording information comprises a recording directory path, recording file starting time and recording file duration;

and sending the recording information to the guide and control server.

In one embodiment of the present invention, the step of sending the received recording information to all the WEB terminals by the guiding and controlling server further includes the steps of:

the guiding and controlling server receives a plan playback request of the WEB terminal, finds out equipment accounts of all the audio and video decoding equipment according to the plan data, and informs the audio and video decoding equipment to start playing the recorded file;

the audio/video decoding equipment generates a new path according to the recording path and the equipment account number in the plan playback request, acquires a recording file list under the new path from the on-demand server and plays the recording file;

the audio/video decoding equipment acquires the time slices of the recorded files at fixed time and plays the time slices, and sequentially plays all the recorded files in the recorded file list.

In one embodiment of the technical scheme, the method further comprises the step of playing the plan at double speed, specifically:

when in a plan playback state, the Web terminal sends a double-speed play request of the plan playback, wherein the double-speed play request comprises a plan number, a recorded file path of the plan playback and a play double speed;

after receiving the double-speed playing request, the guiding and controlling server forwards the double-speed playing request to all audio and video decoding devices in the plan;

and after receiving the double-speed playing request, the audio/video decoding equipment plays the recorded file according to the double speed.

In one embodiment of the technical scheme, the method further comprises the step of playing back the skip appointed time, specifically:

when in a plan playback state, the Web terminal sends a jump request for jumping to playback at a specified time, wherein the jump request comprises a plan number, a recorded file path for playing back the plan and the specified time;

after receiving the jump request, the guide control server forwards the jump request to all audio/video decoding devices in the plan;

and after receiving the skip request for skipping the playback at the appointed time, the audio/video decoding equipment acquires and plays the time slice recorded at the appointed time from the on-demand server.

In one embodiment of the technical scheme, the method further comprises the step of 'suspension or ending of the playback of the plan', specifically:

when in a plan playback state, the Web terminal sends a pause request or an end request of the plan playback, wherein the pause request or the end request comprises a plan number and a recorded file path;

after receiving the pause request or the end request, the guide control server forwards the pause request or the end request to all audio/video decoding devices in the plan;

after receiving the pause request or the end request, the audio/video decoding device pauses or ends playing the recorded file according to the request type.

In one embodiment of the technical solution, the method further includes a step of "marking operation when the plan is opened or the plan is played back", specifically:

the Web terminal sends a marking operation request for marking points or modifying the marking points, wherein the marking operation request comprises a plan recording identification number, marking point time and marking point content;

after receiving the marking operation request, the guide control server stores the marking operation request into a database and returns a successful response;

when the Web terminal is started or in the playback process, after the audio/video decoding equipment receives a marking operation request, the video-on-demand server acquires and plays the time slice recorded by the marking point time.

Another technical scheme of the application is to provide a plan data processing system based on a WEB terminal, which comprises the WEB terminal, a guiding and controlling server and a recording server, wherein,

the WEB terminal is used for establishing and starting a plan, generating plan data, sending the plan data to the guide and control server and receiving recording information;

the guiding and controlling server is used for sending a first request for recording the plan to the recording server according to the plan data when the plan is in an open state, wherein the first request comprises a device list, a device IP address and a device port of all audio and video decoding devices to be recorded in the plan, and receiving the recording information of the recording server and transmitting the recording information to all WEB terminals;

the recording server sends a second request to the audio/video decoding equipment according to the first request, acquires an audio/video input stream for recording and storing, and sends recording information to the guide and control server.

In an embodiment of the technical scheme, the video-on-demand system further comprises a video-on-demand server, wherein the video-on-demand server is used for storing a new path generated by the audio-video decoding device according to the recording path and the device account number in the pre-scheme playback request, and sending a recording file list under the new path to the audio-video decoding device.

Drawings

FIG. 1 is a schematic diagram of a plan recording and playback technique of a plan data processing system in an embodiment of the present application.

Fig. 2 is a registration flowchart of a method for processing data of a plan in an embodiment of the present application.

Fig. 3 is a plan recording flowchart of a plan data processing method in an embodiment of the present application.

Fig. 4 is a flowchart of a protocol playback and playback control of a protocol data processing method in an embodiment of the present application.

FIG. 5 is a flow chart of a plan marking point for a plan data processing system in an embodiment of the present application.

FIG. 6 is a flow chart of the steps of recording and playback of a plan of the method for processing data of a plan in an embodiment of the present application

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary and intended for the purpose of explaining the present application and are not to be construed as limiting the present application.

In the description of the present application, it should be understood that the terms "center," "longitudinal," "transverse," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," etc. indicate or are based on the orientation or positional relationship shown in the drawings, merely for convenience of description and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the present application, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be.

In this application, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, and may also include the first and second features not being in direct contact but being in contact with each other by way of additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

The present application is described in further detail below with reference to the accompanying drawings by way of specific embodiments.

As shown in fig. 1, the first embodiment is a plan data processing system, which includes a WEB terminal, a pilot control server, a soft switch server, a recording server, an on-demand server, a plurality of audio/video encoding devices and a plurality of audio/video decoding devices, wherein the pilot control server is respectively in communication connection with the audio/video encoding devices and the audio/video decoding devices, and the pilot control server automatically establishes a pre-stored audio/video push relationship between the audio/video encoding devices and the audio/video decoding devices, namely establishes a plan.

As shown in fig. 1 to 3, based on the above-mentioned plan data processing system, the second embodiment is a plan data processing method based on a browser WEB as a client, including the steps of:

s1: and registering the login user of the Web terminal, the equipment account numbers of the audio/video coding equipment and the audio/video decoding equipment to the soft switch server by using the browser, and informing the login state of the login user, the equipment IP address and the equipment port to the guide control server by the soft switch server.

The device IP address and device port are based on the SIP protocol, (SIP, session initialization Protocol, session initiation protocol, multimedia communication protocol established by IETF (Internet Engineering Task Force, internet engineering task force), and the audio-video encoding device may be a device that encodes audio of a microphone or a device that encodes video of a camera, and the audio-video decoding device may be a device that encodes audio (e.g., plays audio after decoding) or a device that decodes video (e.g., displays on a display screen after decoding).

S2: and the Web terminal is utilized to pre-establish an association relationship between the audio and video encoding equipment and the audio and video decoding equipment, for example, an equipment account in the audio and video encoding equipment pushes video resources acquired by a plurality of groups of cameras to the equipment account of video decoding in the audio and video decoding equipment and then displays the video resources on a display screen, and similarly, pushes audio resources of a plurality of groups of microphones to sound equipment and plays the audio resources.

S3: clicking a preset storing button on a page of the WEB terminal, inputting a preset name, clicking and storing, and storing preset data containing all current pushing information on a guiding and controlling server.

S4: the WEB terminal starts executing the plan on the page, and sends an HTTP message for starting executing the plan, wherein the HTTP message carries a plan number which is the unique identification number ID of the plan; after receiving the information of starting executing the plan, the guiding and controlling server obtains the plan number carried in the HTTP information to find out the pushing information between all the audio and video encoding devices and the audio and video decoding devices, and uses the SIP protocol to inform all the audio and video decoding devices to start pushing service, after starting the plan, all the audio and video encoding and decoding devices will be consistent with the state when the plan is stored.

S5: and when the plan is in an open state, automatically opening a plan recording flow. The automatic start plan recording flow is described as follows:

s51: after the guide control server sends push information of the audio and video, all decoding equipment lists required to be recorded in the pre-form are automatically transmitted to the recording server through a MESSAGE format of an SIP protocol (the MESSAGE is a computer file format), and the request information of the MESSAGE format carries the audio and video decoding equipment list in the pre-form, and equipment IP addresses and equipment ports of each equipment;

s52: the request information in the MESSAGE format carries the equipment IP address and the equipment port of each audio/video coding equipment, and the recording server can directly carry out media negotiation communication with the audio/video decoding equipment, so that the negotiation communication process does not pass through the guide control server any more, and the problem of asynchronous audio/video caused by delay of the negotiation information entering the guide control server is solved.

S53: after receiving the record request of the plan, the record server establishes a catalog for recording the plan, and establishes a subdirectory with the equipment account as the name for each equipment account needing to be recorded in the catalog. And sending the INVITE request message to the audio-video codec equipment to retrieve the input video stream or audio stream and store the video stream or audio stream in the recording file.

If the audio/video decoding device does not input, a mute packet or a default image is sent to the recording server, and when the audio/video decoding device is started in the scheme, if the audio/video decoding device has a new input data stream, the audio/video decoding device sends the new input data stream to the recording server, so that audio/video synchronization is realized when all devices play the audio/video during the playback of the scheme.

S54: after starting recording of the plan, the recording server reports recording information including a plan recording directory path, recording file starting time, recording file duration and the like to the guide control server through a request MESSAGE in a MESSAGE format of an SIP protocol.

S55: after receiving the recording information reported by the recording server and recording the recording information by the starting plan, the guiding control server pushes the recording information to all WEB terminals through the SSE format communication information of HTTP.

S6: when the plan is required to be ended, clicking an ending plan button of a WEB terminal page to send an HTTP message of ending the plan, wherein the HTTP message carries a plan number, and after receiving the HTTP message of ending the plan, the guiding and controlling server informs all audio and video decoding equipment to end pushing service by using an SIP protocol; and the guide control server simultaneously sends a request MESSAGE in a MESSAGE format of the SIP protocol, and finishes the recording request of the plan to the recording server.

As shown in fig. 4 to 6, the method for processing the plan data based on the browser WEB as the client according to the present embodiment may further include the steps of:

s7: the WEB terminal performs one-key starting of the scheme playback of the full scene, and the flow is specifically described as follows:

s71: selecting a plan record to be played back from an interface of a WEB terminal to play back a plan of a full scene, and sending an HTTP message for starting the plan playback to a guide control server by the Web terminal, wherein the HTTP message carries information such as a plan number, a record catalog path of the plan playback and the like;

s72: after receiving the HTTP MESSAGE for starting the playback of the plan, the guide control server searches the plan data according to the plan number carried in the HTTP MESSAGE, finds out the equipment account numbers of all the audio/video decoding equipment, and notifies all the audio/video decoding equipment to start playing the plan record file by using the MESSAGE format MESSAGE of the SIP protocol.

S73: after receiving the playback request, the audio/video decoding device (including the audio decoding device and the video decoding device) generates a new path according to the recording path of the plan in the MESSAGE and the account number of the device, sends an HTTP MESSAGE to the on-demand server to acquire a file list under the new path, plays the recorded files in sequence from small to large according to time, acquires the time slices of the recorded files through HTTP at regular time, plays the recorded files, and continues playing the next recorded file in the file list after playing one file.

S8: when in the plan playback state, the double-speed playing of the plan playback is carried out, and the double-speed playing flow is specifically described as follows:

s81: the Web terminal sends an HTTP message for starting the playback of the plan at double speed, wherein the HTTP message carries the plan number, the recording file path for starting the playback, the playing double speed and other information;

step2: after receiving the HTTP MESSAGE played at double speed, the guide control server converts the HTTP MESSAGE played at double speed into a MESSAGE of the SIP protocol and forwards the MESSAGE to all audio/video decoding devices in the current plan;

s83: and after receiving the MESSAGE of the double-speed playing request, the audio/video decoding equipment plays the recorded file according to the playing double speed.

S9: when in the plan playback state, the jump designated time playback of the plan playback is performed, and the jump designated time playback flow is specifically described as follows:

s91: the Web terminal sends HTTP information played back in a skip appointed time, wherein the HTTP information carries information of a plan number, a recording file path for starting playback, skip time and the like;

s92: after receiving the HTTP MESSAGE played back in the skip appointed time, the guide control server converts the HTTP MESSAGE played back in the skip appointed time into a MESSAGE of the SIP protocol and forwards the MESSAGE to all audio and video decoding devices in the plan.

S93: after receiving the MESSAGE of the skip appointed time playback request, the audio/video decoding device acquires the time slice recorded at the appointed time from the on-demand server through the HTTP MESSAGE and plays the time slice.

S10: when in the plan playback state, the playback pauses, plays and ends the playback of the plan playback, and the specific descriptions of the playback pauses, plays and ends the playback flow are as follows:

s101: the Web terminal sends HTTP information of playback pause, play, end and the like, wherein the HTTP information carries information such as plan number information, recorded file path and the like;

s102: after receiving the information of pause, play and end, the guiding control server converts the information into MESSAGE information of SIP protocol, and forwards the MESSAGE information to all audio/video decoding devices in the plan.

S103: after receiving the MESSAGE of the playback request, the audio/video decoding device plays, pauses and ends the playing of the recorded file according to the command type.

S11: in the process of starting the plan or in the process of playing back the plan, a mark point function can be used through an interface of a WEB terminal, mark points can be added, modified and deleted, and the marking point process is specifically described as follows:

s111: the Web terminal sends HTTP information of marking points or modifying marking points, and the HTTP information carries information such as a plan recording identification ID, marking point time information, marking point content and the like;

s112: after receiving the marking point information, the guide control server stores the marking point information into a database and returns a successful response.

S113: when playing back the plan, the page of the WEB terminal can click the mark point added in the starting process or the playing back process of the plan, so that the position of the mark point can be quickly jumped, and the corresponding audio/video decoding equipment can output the image or sound content at the time point.

Thus, the method of the embodiment can realize full scene playback, output contents of all audio and video output devices when synchronous playing tasks are executed, and functions of double-speed playback, skip designated time playback, mark point function use and the like are supported in the process of playing back a plan.

The embodiments of the present application have been described above, the foregoing description is exemplary, not exhaustive, and not limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the various embodiments described. The terminology used herein was chosen in order to best explain the principles of the embodiments, the practical application, or the improvement of technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (10)

1. The method for processing the plan data based on the WEB terminal is characterized by comprising the following steps of:

the WEB terminal establishes and opens a plan, and generates plan data to be sent to the guide and control server;

when the plan is in an open state, the guide and control server sends a first request for recording the plan to the recording server according to the plan data, wherein the first request comprises a device list, a device IP address and a device port of all audio and video decoding devices to be recorded in the plan;

the recording server sends a second request to the audio/video decoding equipment according to the first request, acquires an audio/video input stream for recording and storing, and sends recording information to the guide and control server;

and the guiding and controlling server sends the received recording information to all WEB terminals.

2. The method for processing the plan data based on the WEB terminal according to claim 1, wherein the step of establishing and opening the plan by the WEB terminal and generating the plan data transmission guide server includes:

the Web terminal registers a login user, an equipment account number of the audio/video coding equipment and an equipment account number of the audio/video decoding equipment to a soft exchange server, and the soft exchange server sends the login state of the login user, the equipment IP addresses and the equipment ports which correspond to all the equipment account numbers and are based on the SIP protocol to a guide control server;

the Web terminal establishes an association relation between the audio and video encoding equipment and the audio and video decoding equipment, and generates plan data to the guide and control server;

and the guide control server executes the opening plan according to the opening plan request of the Web terminal.

3. The method for processing the plan data based on the WEB terminal according to claim 2, wherein the plan data comprises a plan number with a unique identification, an equipment IP address and an equipment port, an association relation between audio and video coding equipment and audio and video decoding equipment, and push information.

4. The method for processing the proposal data based on the WEB terminal according to claim 2, wherein the step of the recording server sending a second request to the audio/video decoding device according to the first request to obtain the audio/video input stream for recording and storing, and sending the recording information to the guiding server comprises the following steps:

after receiving a first request for recording a plan, the recording server establishes a catalog for recording the plan, and establishes a subdirectory with the equipment account as the name for each equipment account of the audio/video decoding equipment to be recorded in the catalog;

the recording server sends a second request to the audio/video decoding equipment to acquire an audio/video input stream, generates a recording file and stores the recording file in the subdirectory, and generates recording information, wherein the recording information comprises a recording directory path, recording file starting time and recording file duration;

and sending the recording information to the guide and control server.

5. The method for processing the predicted form data based on the WEB terminal according to claim 4, wherein the step of sending the received recording information to all the WEB terminals by the guiding server further comprises the steps of:

the guiding and controlling server receives a plan playback request of the WEB terminal, finds out equipment accounts of all the audio and video decoding equipment according to the plan data, and informs the audio and video decoding equipment to start playing the recorded file;

the audio/video decoding equipment generates a new path according to the recording path and the equipment account number in the plan playback request, acquires a recording file list under the new path from the on-demand server and plays the recording file;

the audio/video decoding equipment acquires the time slices of the recorded files at fixed time and plays the time slices, and sequentially plays all the recorded files in the recorded file list.

6. The method for processing the plan data based on the WEB terminal according to claim 5, further comprising the step of "double-speed playing of the plan playback", specifically:

when in a plan playback state, the Web terminal sends a double-speed play request of the plan playback, wherein the double-speed play request comprises a plan number, a recorded file path of the plan playback and a play double speed;

after receiving the double-speed playing request, the guiding and controlling server forwards the double-speed playing request to all audio and video decoding devices in the plan;

and after receiving the double-speed playing request, the audio/video decoding equipment plays the recorded file according to the double speed.

7. The method for processing the predetermined data based on the WEB terminal according to claim 5, further comprising the step of playing back the predetermined time, specifically:

when in a plan playback state, the Web terminal sends a jump request for jumping to playback at a specified time, wherein the jump request comprises a plan number, a recorded file path for playing back the plan and the specified time;

after receiving the jump request, the guide control server forwards the jump request to all audio/video decoding devices in the plan;

and after receiving the skip request for skipping the playback at the appointed time, the audio/video decoding equipment acquires and plays the time slice recorded at the appointed time from the on-demand server.

8. The method for processing the scheduled file data based on the WEB terminal according to claim 5, further comprising the step of stopping or ending the playback of the scheduled file, specifically:

when in a plan playback state, the Web terminal sends a pause request or an end request of the plan playback, wherein the pause request or the end request comprises a plan number and a recorded file path;

after receiving the pause request or the end request, the guide control server forwards the pause request or the end request to all audio/video decoding devices in the plan;

after receiving the pause request or the end request, the audio/video decoding device pauses or ends playing the recorded file according to the request type.

9. The method for processing the plan data based on the WEB terminal according to claim 5, further comprising a step of "marking operation of opening or playback of the plan", specifically:

the Web terminal sends a marking operation request for marking points or modifying the marking points, wherein the marking operation request comprises a plan recording identification number, marking point time and marking point content;

after receiving the marking operation request, the guide control server stores the marking operation request into a database and returns a successful response;

when the Web terminal is started or in the playback process, after the audio/video decoding equipment receives a marking operation request, the video-on-demand server acquires and plays the time slice recorded by the marking point time.

10. The pre-plan data processing system based on the WEB terminal is characterized by comprising the WEB terminal, a guide and control server and a recording server, wherein,

the WEB terminal is used for establishing and starting a plan, generating plan data, sending the plan data to the guide and control server and receiving recording information;

the guiding and controlling server is used for sending a first request for recording the plan to the recording server according to the plan data when the plan is in an open state, wherein the first request comprises a device list, a device IP address and a device port of all audio and video decoding devices to be recorded in the plan, and receiving the recording information of the recording server and transmitting the recording information to all WEB terminals;

the recording server sends a second request to the audio/video decoding equipment according to the first request, acquires an audio/video input stream for recording and storing, and sends recording information to the guide and control server.

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