CN109246444B - Task load operation monitoring system, method and device and readable storage medium - Google Patents

Abstract

The application discloses an operation monitoring system, a method, a device and a computer readable storage medium based on multi-source heterogeneous task loads, which utilize a uniform access module to realize uniform receiving of multi-source heterogeneous data by performing characteristic analysis on original task data of different task loads and selecting a corresponding data receiving format to receive each original task data, can support original task data sent by a plurality of task loads, simultaneously utilize a transcoding module to convert the original task data into the same data format to realize normalization processing of the data, facilitate various subsequent processing of the data, ensure the data to be searchable by the storage module, provide a data source for a data delivery module, provide a data rebroadcasting service for a user terminal by utilizing a transcoding task data set provided by the storage module and the transcoding module by the data delivery module, ensure that a user can watch the task execution condition of an aircraft through the user terminal, the execution efficiency of flight operation is comprehensively improved.

Description

Task load operation monitoring system, method and device and readable storage medium

Technical Field

The invention relates to the field of flight management, in particular to an operation monitoring system, method and device based on multi-source heterogeneous task load and a computer readable storage medium.

Background

Along with economic development and national improvement of China, general aircrafts and special task aircrafts are rapidly developed in the fields of government public security, police navigation, sea surveillance, maritime affairs, forest fire prevention, aviation mapping, emergency rescue and the like, the types of operation tasks are diversified day by day, and navigation enterprises need to additionally install different task loads aiming at different operation tasks, including photoelectric pod, infrared, radar, aerial camera and the like, so as to achieve different task purposes.

In the prior art, the on-site real-time data of the airborne task load is generally transmitted through an image transmission device in an air-ground mode, and the ground receiving device processes and forwards the data after receiving the data.

Therefore, an operation monitoring system compatible with multi-source heterogeneous task loads is needed, and execution efficiency of flight tasks is improved.

Disclosure of Invention

In view of this, the present invention provides an operation monitoring system, method, apparatus and computer readable storage medium based on multi-source heterogeneous task loads, which are compatible with the multi-source heterogeneous task loads and improve the execution efficiency of the flight task. The specific scheme is as follows:

a job monitoring system based on multi-source heterogeneous task loads comprises:

the unified access module is used for performing characteristic analysis on N original task data acquired by N task loads sent by the aircraft, selecting a corresponding data receiving format by using the characteristic information of each original task data, and receiving each original task data, wherein N is a positive integer;

the transcoding module is used for receiving each original task data received by the unified access module, correspondingly converting each original task data into a preset file format by using the data type of each original task data, and obtaining a transcoding task data set with a unified file format;

the storage module is used for storing the transcoding task data set;

and the data playing module is used for sending the transcoding task data in the transcoding task data set to a user terminal for browsing by a user.

Optionally, the transcoding module includes:

the audio transcoding unit is used for screening audio original task data from each original task data received by the unified access module, and transcoding the audio codes of each audio original task data into an AAC format to obtain audio transcoding task data;

the video transcoding unit is used for screening out video original task data from each original task data received by the unified access module, and transcoding the video codes of each video original task data into an H264 format to obtain video transcoding task data;

and the audio and video synchronization unit is used for performing audio and video synchronization on the corresponding audio transcoding task data and the video transcoding task data, and packaging the synchronized corresponding audio transcoding task data and video transcoding task data into transcoding task data in an MP4 format to obtain the transcoding task data set with a uniform file format.

Optionally, the storage module is further configured to store each task data received by the unified access module.

Optionally, the data playing module includes:

the forwarding module is used for pushing the live source data of the transcoding module and the on-demand source data of the storage module in the transcoding task data set to the streaming media service module;

the streaming media service module is used for carrying out load balancing on multiple concurrent requests and high-capacity data transmission, slicing videos, and sending live source data and on-demand source data pushed by the forwarding module in the transcoding task data set to a user terminal for browsing by a user.

Optionally, the method further includes:

and the intelligent enhancement module is used for carrying out image enhancement on the transcoding task data sent by the data playing module.

Optionally, the method further includes:

and the data management module is used for adding labels and grouping to the original task data by using the flight task information corresponding to the original task data.

Optionally, the method further includes:

and the task summary module is used for generating a task summary report by utilizing the flight task information corresponding to the original task data, the original task data and a pre-generated task summary template.

The invention also discloses an operation monitoring method based on the multi-source heterogeneous task load, which comprises the following steps:

performing characteristic analysis on N original task data acquired by N task loads sent by an aircraft, selecting a corresponding data receiving format by using characteristic information of each original task data, and receiving each original task data, wherein N is a positive integer;

receiving each original task data received by the unified access module, and correspondingly converting each original task data into a preset file format by using the data type of each original task data to obtain a transcoding task data set with a unified file format;

storing the transcoding task data set;

and sending the transcoding task data in the transcoding task data set to a user terminal for browsing by a user.

The invention also discloses an operation monitoring device based on the multi-source heterogeneous task load, which comprises the following components:

a memory for storing a computer program;

and the processor is used for executing the computer program to realize the operation monitoring method based on the multi-source heterogeneous task load.

The invention also discloses a computer readable storage medium, which stores a computer program, and the computer program is executed by a processor to realize the steps of the operation monitoring method based on the multi-source heterogeneous task load.

In the invention, the operation monitoring system based on the multi-source heterogeneous task load comprises: the unified access module is used for carrying out characteristic analysis on N original task data acquired by N task loads sent by the aircraft, selecting a corresponding data receiving format by utilizing the characteristic information of each original task data, and receiving each original task data; the transcoding module is used for receiving each original task data received by the unified access module, correspondingly converting each original task data into a preset file format by using the data type of each original task data, and obtaining a transcoding task data set with a unified file format; the storage module is used for storing the transcoding task data set; and the data playing module is used for sending the transcoding task data in the transcoding task data set to the user terminal for the user to browse.

The invention utilizes the uniform access module to analyze the characteristics of the original task data of different task loads, and selects a corresponding data receiving format to receive each original task data, realizes the uniform receiving of multi-source heterogeneous data, can support the original task data sent by various task loads, meanwhile, the transcoding module is used for converting the original task data into the same data format to realize the normalization processing of the data, thereby facilitating various subsequent processing of the data, the storage module ensures the data to be searchable, meanwhile, a data source is provided for the data playing module, the data playing module provides data rebroadcasting service for the user terminal by using the transcoding task data set provided by the storage module and the transcoding module, the user can be ensured to watch the task execution condition of the aircraft through the user terminal, and the execution efficiency of flight operation is comprehensively improved.

Drawings

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

Fig. 1 is a schematic structural diagram of an operation monitoring system based on multi-source heterogeneous task loads according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart of an operation monitoring system based on multi-source heterogeneous task loads according to an embodiment of the present disclosure;

fig. 3 is a schematic flow chart of an operation monitoring method based on multi-source heterogeneous task loads according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention discloses an operation monitoring system based on multi-source heterogeneous task load, which is shown in a figure 1 and comprises:

the unified access module 1 is configured to perform feature analysis on N original task data acquired by N task loads sent by an aircraft, select a corresponding data receiving format by using feature information of each original task data, and receive each original task data, where N is a positive integer.

Specifically, in order to complete a task, task loads of different manufacturers of different models, such as an aerial camera, a photoelectric pod, a multifunctional radar, an infrared imaging device and the like, are loaded on an aircraft, the devices transmit original audio and video task data to the ground through image transmission devices, the ground devices receive the original audio and video task data transmitted by each task load on the aircraft through corresponding signal receiving devices, the original audio and video task data from different task loads serve as multi-source heterogeneous data to be transmitted to a unified receiving module, and the unified receiving module performs feature analysis on each original task data so as to distinguish different data, wherein the feature information comprises information such as equipment types, equipment numbers, communication addresses, communication ports, relevant working parameters and the like of the task loads.

Further, in order to realize unified receiving, a virtual data interface corresponding to each task load is generated in advance, a corresponding relation between the characteristic information of each original task data and the corresponding virtual data interface is established, a characteristic mapping relation is obtained, and then the corresponding virtual data interface can be selected as a corresponding data receiving format according to the characteristic information of the original task data to receive the original task data.

When the task load is updated, a virtual data interface corresponding to the original task data of the new task load can be added to the unified access module 1, and a corresponding relationship between the characteristic information of the original task data and the corresponding virtual data interface is established, so that the virtual data interface in the unified access module 1 is updated, and the original task data of each task load can be received.

And the transcoding module 2 is used for receiving each original task data received by the unified access module 1, and correspondingly converting each original task data into a preset file format by using the data type of each original task data to obtain a transcoding task data set with a unified file format.

Specifically, in order to unify various original task data into a data format for convenient processing, the transcoding module 2 is utilized to determine the data type of each original task data, for example, the data type includes audio data and video data, and each original task data is correspondingly converted into a preset file format according to the data type, the preset file formats of the original task data of different data types may be different, and the file formats of the original task data of the same data type are the same, for example, an audio file may be converted into an MP3 format, and a video file may be converted into an MP4 format.

And the storage module 3 is used for storing the transcoding task data set.

Specifically, because the storage space is limited, a time threshold or a space threshold may be set, and when a preset condition is reached, the data in the storage module 3 is deleted or replaced, for example, when the storage space is not left, the oldest data is replaced with the newest data, so as to ensure that new data can be stored continuously, or the old data in the storage module 3 is cleared every 3 hours; in addition, one piece of data in the storage module 3 can be stored in a form of one file every 30 minutes, so that a single file is prevented from being too large and is not beneficial to searching, for example, if the video camera continuously works for 1 hour and 45 minutes, the video file collected during the working period of the video camera is divided into 3 video files recorded for 30 minutes and one video file recorded for 15 minutes, and other types of files are the same.

And the data playing module 4 is used for sending the transcoding task data in the transcoding task data set to a user terminal for browsing by a user.

Specifically, the data delivery module 4 can send transcoding task data in a transcoding task data set in the storage module 3 to the user terminal, and also can directly send transcoding task data in a transcoding task data set obtained by the transcoding module 2 to the user terminal, the data delivery module 4 can utilize the transcoding task data set in the storage module 3 to realize data on demand so that a user can check the data through the user terminal at any time, the data delivery module 4 can utilize the transcoding task data set of the transcoding module 2 to realize data live broadcast so that the user can watch the data, the user can observe task execution conditions of an aircraft through the live broadcast, and the task execution process can be reviewed through on demand.

It can be seen that, by using the unified access module 1, the embodiment of the present invention can perform feature analysis on the original task data of different task loads, and selects a corresponding data receiving format to receive each original task data, realizes the uniform receiving of multi-source heterogeneous data, can support the original task data sent by various task loads, meanwhile, the transcoding module 2 is also used for converting the original task data into the same data format to realize the normalization processing of the data, thereby facilitating various subsequent processing of the data, the storage module 3 ensures the data to be searchable, meanwhile, a data source is provided for the data playing module 4, the data playing module 4 provides data rebroadcasting service for the user terminal by using the transcoding task data set provided by the storage module 3 and the transcoding module 2, the user can be ensured to watch the task execution condition of the aircraft through the user terminal, and the execution efficiency of flight operation is comprehensively improved.

The embodiment of the invention discloses a specific operation monitoring system based on multi-source heterogeneous task loads, and compared with the previous embodiment, the embodiment further explains and optimizes the technical scheme. Referring to fig. 2, specifically:

specifically, the transcoding module may specifically include an audio transcoding unit, a video transcoding unit, and an audio and video synchronization unit; wherein the content of the first and second substances,

the Audio transcoding unit is used for screening Audio original task data from each piece of original task data received by the unified access module, and transcoding the Audio codes of each piece of Audio original task data into an AAC format (AAC, Advanced Audio Coding) to obtain Audio transcoding task data;

the video transcoding unit is used for screening out video original task data from each piece of original task data received by the unified access module, and transcoding video codes of each piece of video original task data into an H264 format in a unified mode to obtain video transcoding task data;

and the audio and video synchronization unit is used for performing audio and video synchronization on the corresponding audio transcoding task data and the video transcoding task data, and packaging the synchronized corresponding audio transcoding task data and video transcoding task data into transcoding task data in an MP4 format to obtain a transcoding task data set with a uniform file format.

It can be understood that the audio transcoding unit and the video transcoding unit respectively screen audio original task data and video original task data from the original task data, and respectively transcode and convert the audio original task data and the video original task data into a predetermined encoding format, where the audio is in an AAC format and the video is in an H264 format, and certainly, the audio transcoding unit and the video transcoding unit may be changed into other formats according to actual application requirements, and since a single video file may include audio and video portions, after the audio transcoding task data and the video transcoding task data of the single video file are transcoded, a time axis may be recreated, synchronized, recombined into a new single video file, and the file format may be changed again and stored into a designated file format, such as MP 4; of course, if the original task data is a simple audio file, the encoding of the audio file may be converted into a specified format, such as an AAC format, and then the audio file may be separately stored in a specified file format, such as an MP3, like a simple video file.

Specifically, in order to store the original data and prevent the transcoding failure, the storage module is further configured to store each task data received by the unified access module.

Further, the data playing module may specifically include a forwarding module and a streaming media service module; wherein the content of the first and second substances,

and the forwarding module is used for pushing the live source data of the transcoding task data centralized transcoding module and the on-demand source data of the storage module to the streaming media service module.

Specifically, the forwarding module performs data forwarding by using FFMPEG (Fast Forward Mpeg) and an RTMP (Real Time Messaging Protocol), and pushes the live source data from the transcoding module and the on-demand source data from the storage module to the streaming media service module.

And the streaming media service module is used for carrying out load balancing on multiple concurrent requests and high-capacity data transmission, slicing the video, and sending the live source data and the on-demand source data pushed by the transcoding task data centralized forwarding module to the user terminal for browsing by the user.

Specifically, the streaming media service module can adopt Nginx for load balancing to meet the requirements of multiple concurrent requests and high-capacity data transmission; carrying out live video broadcasting and on-demand broadcasting on a service website and a user terminal by adopting an RTMP protocol; the method comprises the steps that the video is sliced and an HLS protocol is adopted, so that the functions of live broadcast and on-demand broadcast of a mobile phone end based on m3u8 indexes are realized; the streaming media service module can realize multi-channel data playing, and a user can watch multi-channel video data from different task loads through a single display terminal, for example, 1, 4, 9 or 16 channels.

Furthermore, because loss exists in the data transmission process, before the data are presented to a user, the intelligent enhancement module can be used for carrying out image enhancement on the transcoding task data sent by the data playing module.

Specifically, the intelligent enhancement service module can perform relevant enhancement services such as defogging, denoising, color balancing, motion deblurring, water ripple removing and the like on the image video, so that the definition of the video is improved.

Specifically, in the embodiment of the present invention, a data management module and/or a task summary module may also be included; wherein the content of the first and second substances,

and the data management module is used for adding labels and grouping to the original task data by using the flight task information corresponding to the original task data.

Specifically, the original task data may include flight task information, and the flight task information includes information such as task introduction and task details, so that various information may be extracted from the flight task information corresponding to the original task data as a basis for labeling and grouping; the main contents of adding labels and grouping to original task data comprise functions of adding task abstract, label management, video screening and attribute association. The task abstract function can mark and recombine the key information of different tasks; the tag management function provides tag management based on an access point and a task content mark, and effective task videos can be screened through the tag management function; the manually uploaded videos and the related attributes of the job tasks can be associated through the attribute association function, and service is provided for task retrieval.

And the task summary module is used for generating a task summary report by utilizing the flight task information corresponding to the original task data, the original task data and a pre-generated task summary template.

Specifically, in order to generate the task summary report quickly, a frame of the task summary report is generated in advance to obtain a task summary template, corresponding data are filled in the task summary template to generate the task summary report quickly, specifically, the corresponding data can be automatically retrieved through retrieving information such as audio, video, photos and characters of original task data in a storage module and combining task targets and task execution conditions in flight task information, and key video summaries can be generated by utilizing the retrieved data and stored for summary reporting and later-stage query.

Correspondingly, the embodiment of the invention also discloses an operation monitoring method based on the multi-source heterogeneous task load, which is shown in fig. 3 and comprises the following steps:

s11: performing characteristic analysis on N original task data acquired by N task loads sent by an aircraft, selecting a corresponding data receiving format by using characteristic information of each original task data, and receiving each original task data, wherein N is a positive integer;

s12: receiving each original task data received by the unified access module, and correspondingly converting each original task data into a preset file format by using the data type of each original task data to obtain a transcoding task data set with a unified file format;

s13: storing the transcoding task data set;

s14: and sending the transcoding task data in the transcoding task data set to a user terminal for browsing by a user.

Specifically, the process of S12 may specifically include S121 to S123; wherein the content of the first and second substances,

s121: screening audio original task data from each original task data received by the unified access module, and transcoding audio codes of each audio original task data into an AAC format to obtain audio transcoding task data;

s122: screening video original task data from each original task data received by the unified access module, and uniformly transcoding the video code of each video original task data into an H264 format to obtain video transcoding task data;

s123: and carrying out audio and video synchronization on the corresponding audio transcoding task data and the video transcoding task data, and packaging the synchronized corresponding audio transcoding task data and video transcoding task data into transcoding task data in an MP4 format to obtain a transcoding task data set with a uniform file format.

Wherein, S121 and S122 have no sequential execution relation, and the execution sequence is arbitrary.

Specifically, each task data received by the unified access module can be stored.

Specifically, the process of S14 may specifically include S141 and S142; wherein the content of the first and second substances,

s141: pushing live source data of the transcoding task data centralized transcoding module and on-demand source data of the storage module to the streaming media service module;

s142: and carrying out load balancing on the multiple concurrent requests and the high-capacity data transmission, slicing the video, and sending the live source data and the on-demand source data pushed by the transcoding task data centralized forwarding module to the user terminal for the user to browse.

Specifically, image enhancement can be performed on the transcoding task data sent by the data playing module; labels and groups can be added to the original task data by using flight task information corresponding to the original task data; and generating a task summary report by using the flight task information corresponding to the original task data, the original task data and a pre-generated task summary template.

In addition, the embodiment of the invention also discloses an operation monitoring device based on the multi-source heterogeneous task load, which comprises:

a memory for storing a computer program;

and the processor is used for executing a computer program to realize the operation monitoring method based on the multi-source heterogeneous task load.

In addition, the embodiment of the invention also discloses a computer readable storage medium, wherein a computer program is stored on the computer readable storage medium, and the computer program is executed by a processor to realize the steps of the operation monitoring method based on the multi-source heterogeneous task load.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The above detailed description is made on the operation monitoring system, method, apparatus and computer readable storage medium based on multi-source heterogeneous task load provided by the present invention, and a specific example is applied in the present document to explain the principle and implementation of the present invention, and the description of the above embodiment is only used to help understanding the method and its core idea of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (6)

1. An operation monitoring system based on multisource heterogeneous task loads is characterized by comprising:

the unified access module is used for performing characteristic analysis on N original task data acquired by N task loads sent by the aircraft, selecting a corresponding data receiving format by using the characteristic information of each original task data, and receiving each original task data, wherein N is a positive integer;

the transcoding module is used for receiving each original task data received by the unified access module, correspondingly converting each original task data into a preset file format by using the data type of each original task data, and obtaining a transcoding task data set with a unified file format;

the storage module is used for storing the transcoding task data set;

the data playing module is used for sending the transcoding task data in the transcoding task data set to a user terminal for a user to browse;

the method comprises the steps of generating a virtual data interface corresponding to each task load in advance, establishing a corresponding relation between feature information of each original task data and a corresponding virtual data interface to obtain a feature mapping relation, selecting the corresponding virtual data interface as a corresponding data receiving format according to the feature information of the original task data, receiving the original task data, and enabling each virtual data interface to work independently;

wherein, the transcoding module includes:

the audio transcoding unit is used for screening audio original task data from each original task data received by the unified access module, and transcoding the audio codes of each audio original task data into an AAC format to obtain audio transcoding task data;

the video transcoding unit is used for screening out video original task data from each original task data received by the unified access module, and transcoding the video codes of each video original task data into an H264 format to obtain video transcoding task data;

the audio and video synchronization unit is used for carrying out audio and video synchronization on the corresponding audio transcoding task data and the corresponding video transcoding task data, and packaging the synchronized corresponding audio transcoding task data and the synchronized video transcoding task data into transcoding task data in an MP4 format to obtain the transcoding task data set with a uniform file format;

the storage module is further configured to store each task data received by the unified access module;

wherein, the data playing module comprises:

the forwarding module is used for pushing the live source data of the transcoding module and the on-demand source data of the storage module in the transcoding task data set to the streaming media service module;

the streaming media service module is used for carrying out load balancing on multiple concurrent requests and high-capacity data transmission, slicing videos, and sending live source data and on-demand source data pushed by the forwarding module in the transcoding task data set to a user terminal for browsing by a user;

wherein, still include:

and the intelligent enhancement module is used for carrying out image enhancement on the transcoding task data sent by the data playing module.

2. The multi-source heterogeneous task load based job monitoring system of claim 1, further comprising:

and the data management module is used for adding labels and grouping to the original task data by using the flight task information corresponding to the original task data.

3. The multi-source heterogeneous task load based job monitoring system of claim 2, further comprising:

and the task summary module is used for generating a task summary report by utilizing the flight task information corresponding to the original task data, the original task data and a pre-generated task summary template.

4. A multi-source heterogeneous task load-based job monitoring method is applied to the multi-source heterogeneous task load-based job monitoring system according to any one of claims 1 to 3, and comprises the following steps:

performing characteristic analysis on N original task data acquired by N task loads sent by an aircraft, selecting a corresponding data receiving format by using characteristic information of each original task data, and receiving each original task data, wherein N is a positive integer;

receiving each original task data received by the unified access module, and correspondingly converting each original task data into a preset file format by using the data type of each original task data to obtain a transcoding task data set with a unified file format;

storing the transcoding task data set;

the transcoding task data in the transcoding task data set are sent to a user terminal for a user to browse;

the process of receiving each original task data received by the unified access module, correspondingly converting each original task data into a preset file format by using the data type of each original task data, and obtaining a transcoding task data set with a unified file format includes:

screening audio original task data from each original task data received by the unified access module, and transcoding the audio codes of each audio original task data into an AAC format to obtain audio transcoding task data;

screening video original task data from each original task data received by the unified access module, and uniformly transcoding the video code of each video original task data into an H264 format to obtain video transcoding task data;

audio and video synchronization is carried out on the corresponding audio transcoding task data and the video transcoding task data, and the synchronized corresponding audio transcoding task data and video transcoding task data are packaged into transcoding task data in an MP4 format to obtain the transcoding task data set with a uniform file format;

wherein, still include:

storing each task data received by the unified access module;

the process of sending the transcoding task data in the transcoding task data set to a user terminal for a user to browse includes:

pushing the live source data of the transcoding task data centralized transcoding module and the on-demand source data of the storage module to a streaming media service module;

carrying out load balancing on multiple concurrent requests and high-capacity data transmission, slicing a video, and sending live source data and on-demand source data pushed by the transcoding task data centralized forwarding module to a user terminal for a user to browse;

wherein, still include:

and performing image enhancement on the transcoding task data sent by the data playing module.

5. An operation monitoring device based on multisource heterogeneous task load, comprising:

a memory for storing a computer program;

a processor for executing the computer program to implement the multi-source heterogeneous task load based job monitoring method of claim 4.

6. A computer-readable storage medium, having stored thereon a computer program which, when being executed by a processor, carries out the steps of the multi-source heterogeneous task load based job monitoring method according to claim 4.

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