CN117478946A - Picture acquisition method and system for operation analysis of set top box - Google Patents

Abstract

The application relates to a picture acquisition method and a system for operation analysis of a set top box, which belong to the technical field of television set top boxes, wherein the picture acquisition method comprises the following steps: receiving an equipment ID to be analyzed input by a user; acquiring the equipment point position state of the equipment to be analyzed according to the equipment ID to be analyzed; responding to the point position state of the equipment as an on-line state, and initiating a remote monitoring instruction; displaying a monitoring point position window corresponding to the equipment ID to be analyzed, and loading a target monitoring window; performing validity detection according to the remote control state of the target monitoring window; responding to the fact that the remote control state of the target monitoring window is valid, and sending an interface jump instruction to jump to a target interface; and controlling a cursor on the target interface to move bit by bit from the initial coordinate position to the preset coordinate position, and simultaneously intercepting and storing a set top box picture corresponding to each coordinate position when the cursor stays in the moving process until the cursor moves to the preset coordinate position. The method and the device have the effect of improving the accuracy of operation analysis.

Description

Picture acquisition method and system for operation analysis of set top box

Technical Field

The application relates to the technical field of television set top boxes, in particular to a picture acquisition method and a system for operation analysis of a set top box.

Background

With the gradual popularization of digital television and IPTV technology, in order to meet the communication service quality required by high standard, content operators generally need to analyze live television pictures and other operation activities in the actual operation process, and common picture analysis generally adopts a user photographing method to acquire picture contents, mainly depends on user operation, namely, the user needs to go to a set top box local place, and the pictures of the set top box are photographed by photographing equipment and then uniformly arranged and analyzed.

At present, when different areas need to be compared, users are usually required to go on business or local residence operation is required to assist in processing, as operators are limited in energy, common photographing operations are tedious and time-consuming, certain problems can exist in photographing standards and accuracy, and operation errors and irregular operations can cause omission or errors of acquired picture contents, so that accuracy of operation analysis is reduced.

Disclosure of Invention

In order to improve accuracy of operation analysis, the application provides a picture acquisition method and a system for operation analysis of a set top box.

In a first aspect, the present application provides a method for obtaining a picture for operation analysis of a set-top box, which adopts the following technical scheme:

a picture acquisition method for set-top box operation analysis, comprising:

receiving an equipment ID to be analyzed input by a user;

acquiring the equipment point position state of the equipment to be analyzed according to the equipment ID to be analyzed;

responding to the equipment point position state as an on-line state, and initiating a remote monitoring instruction;

displaying a monitoring point position window corresponding to the equipment ID to be analyzed according to the remote monitoring instruction;

loading a target monitoring window in the monitoring point position window;

performing validity detection according to the remote control state of the target monitoring window;

responding to the fact that the remote control state of the target monitoring window is effective, and sending an interface jump instruction to jump to a target interface;

and controlling the cursor on the target interface to move bit by bit from the initial coordinate position to the preset coordinate position, and simultaneously intercepting and storing the corresponding set top box picture when the cursor stays to each coordinate position in the moving process until the cursor moves to the preset coordinate position.

By adopting the technical scheme, the equipment point position state of the equipment is obtained according to the equipment ID input by the user, when the equipment point position state is normal, remote monitoring operation is carried out, a monitoring point position window corresponding to the equipment ID to be analyzed is displayed, and a target monitoring window is loaded, when the remote control state of the target monitoring window is effective, the target interface is jumped, the cursor is controlled to move on the target interface, in the moving process of the cursor from the initial coordinate position to the preset coordinate position, the corresponding set top box picture when the cursor stays to each coordinate position is intercepted, remote control and monitoring of the set top box terminal can be realized, and the related picture is automatically intercepted and saved, so that a content operator can conveniently analyze and process in the subsequent operation process without manual intervention of the user, and the operation analysis efficiency and accuracy are improved.

Optionally, the target interface includes an EPG interface or a live channel interface.

Optionally, the step of obtaining the device point location state of the device to be analyzed according to the device ID to be analyzed includes:

determining the equipment point position of the equipment to be analyzed according to the equipment ID to be analyzed;

acquiring pixel information of a state indication corresponding to the equipment point position according to the equipment point position;

and determining the corresponding equipment point position state based on the pixel information.

By adopting the technical scheme, the corresponding equipment point position is determined according to the equipment ID to be analyzed, and the equipment point position state is judged through the state indication corresponding to the equipment point position, so that corresponding follow-up operation is convenient.

Optionally, the step of loading the target monitoring window in the monitoring point position window includes:

according to the target monitoring window, a window handle traversing instruction is sent;

judging whether to traverse the window handle of the target monitoring window;

if yes, loading and displaying the target monitoring window in the monitoring point position window.

By adopting the technical scheme, when the software of the controlled terminal needs to load the target monitoring window, whether the loading is successful is judged by traversing the window handle, and when the window handle of the target monitoring window is traversed, the monitoring window is successfully loaded and displayed on the screen, so that the subsequent operation can be performed.

Optionally, the step of performing validity detection according to the remote control state of the target monitoring window includes:

a remote control instruction is sent, and whether the target monitoring window executes control operation corresponding to the remote control instruction is judged;

if yes, determining that the remote control state of the target monitoring window is effective; if not, determining that the remote control state of the target monitoring window is invalid.

By adopting the technical scheme, whether the target monitoring window executes corresponding control operation is observed to judge whether the remote control state of the target monitoring window is effective, so that the accuracy and the effectiveness of remote control operation can be ensured, and the reliability of subsequent operation is further ensured.

Optionally, after the step of determining that the remote control state of the target monitoring window is invalid, the method further includes:

and closing the target monitoring window and skipping the equipment to be analyzed in response to the fact that the remote control state of the target monitoring window is invalid.

By adopting the technical scheme, when the remote control on the target monitoring window is judged to be invalid, the target monitoring window is closed and the current equipment to be analyzed is skipped, so that the picture acquisition operation of the next equipment to be analyzed is performed.

Optionally, before the step of controlling the cursor on the target interface to move from the initial coordinate position to the preset coordinate position bit by bit, the method further includes:

determining the current coordinate position of the cursor on the target interface based on the preset pixel information of the cursor;

and controlling the cursor to move from the current coordinate position to the initial coordinate position.

By adopting the technical scheme, the current coordinate position of the cursor can be determined by utilizing the preset pixel information of the cursor, and the cursor can be reset by controlling the cursor to move from the current coordinate position to the initial coordinate position, so that the follow-up moving of the cursor is convenient for operations such as picture acquisition and the like.

In a second aspect, the present application provides a picture obtaining system for operation analysis of a set top box, which adopts the following technical scheme:

a picture acquisition system for set-top box operation analysis, comprising:

the receiving module is used for receiving the equipment ID to be analyzed input by the user;

the equipment point position state acquisition module is used for acquiring the equipment point position state of the equipment to be analyzed according to the equipment ID to be analyzed;

the remote monitoring instruction sending module is used for responding to the equipment point position state as an on-line state and initiating a remote monitoring instruction;

the display module is used for displaying a monitoring point position window corresponding to the equipment ID to be analyzed according to the remote monitoring instruction, and loading a target monitoring window in the monitoring point position window;

the validity detection module is used for carrying out validity detection according to the remote control state of the target monitoring window;

the interface jump instruction sending module is used for responding to the fact that the remote control state of the target monitoring window is valid, and sending an interface jump instruction to jump to a target interface;

and the control processing module is used for controlling the cursor on the target interface to move bit by bit from the initial coordinate position to the preset coordinate position, and simultaneously intercepting and storing the corresponding set top box picture when the cursor stays to each coordinate position in the moving process until the cursor moves to the preset coordinate position.

In a third aspect, the present application provides a computer device, which adopts the following technical scheme:

a computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the method according to the first aspect when executing the computer program.

In a fourth aspect, the present application provides a computer readable storage medium, which adopts the following technical scheme:

a computer readable storage medium storing a computer program capable of being loaded by a processor and executing any one of the methods of the first aspect.

In summary, the present application includes the following beneficial technical effects: by means of remote control, the remote set top box terminal picture is obtained in real time, the influence of human factors is eliminated, the possibility of errors and omission is reduced, and the consistency and the integrity of operation results are ensured. Meanwhile, the user does not need to wait and monitor for a long time, more time and energy can be put into other works, and the technical innovation is beneficial to improving the operation efficiency of the television content operators.

Drawings

Fig. 1 is a schematic flow chart of a picture acquisition method according to one embodiment of the present application.

Fig. 2 is a second flowchart of a picture obtaining method according to one embodiment of the present application.

Fig. 3 is a third flowchart of a screen capturing method according to one embodiment of the present application.

FIG. 4 is a schematic diagram of a multi-device point location performing automation tasks simultaneously in accordance with one embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail with reference to fig. 1 to 4 and the embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

Currently, since the conventional television content operation method requires manual watching and photographing when necessary, it not only requires a great deal of time and effort for the user, but also is prone to errors and omissions. For example, on a large-scale IPTV platform, when multiple channels and programs need to be captured, some time-efficient pages need to be photographed and retained immediately after the remote controller is operated, but these pages generally switch or disappear in a fixed time, for example, one or two seconds, and manual photographing often has more limitations, and a situation that the pages flash when the pages are retained is not ready may occur, so that multiple operations are required to complete the acquisition of a picture.

In addition, manual photographing cannot achieve real-time acquisition of interface contents every week, a large amount of manual operation is needed, and photographing analysis efficiency and flexibility are limited. Especially when multiple provinces of IPTV are needed to perform operation analysis together, because the photographing standards are difficult to unify, human operation errors, irregular operations or missing operations may cause errors or incompleteness of the acquired materials, more time is often needed to align the standards and analysis contents, waste is caused to resources of users and platforms, and accuracy of final analysis may be affected.

The embodiment of the application discloses a picture acquisition method for operation analysis of a set top box.

Referring to fig. 1, a picture acquisition method for set-top box operation analysis includes,

step S101, receiving a device ID to be analyzed input by a user;

it can be understood that, on the software of the controlled end, the device ID (for example, the device A) to be analyzed which needs to execute the automation task is input, the window control is performed by using a Windows message mechanism, and the execution of the automation task can be realized by controlling the software window of the controlled end by sending a message; the controlled terminal can be a monitoring device of a set top box, namely a device for connecting a television with an external signal source, and can convert the compressed digital signal into television content and display the television content on the television;

the method comprises the steps that a plurality of remote plug flow devices can be configured in advance, each set top box is correspondingly configured with one remote plug flow device, video streams of monitoring points needing operation analysis in the whole country are accessed to the remote plug flow devices, and a receiving end is arranged on a central cloud platform to receive the video streams transmitted by the remote plug flow devices; in addition, the monitoring points are IPTV monitoring devices deployed in various regions of the whole country.

Step S102, acquiring the equipment point position state of equipment to be analyzed according to the equipment ID to be analyzed;

the device point location state comprises an online state, an offline state and a controlled state;

step S103, responding to the point position state of the equipment as an on-line state, and initiating a remote monitoring instruction;

step S104, displaying a monitoring point position window corresponding to the equipment ID to be analyzed according to the remote monitoring instruction;

if the equipment point position state is an on-line state, a remote monitoring instruction can be initiated by clicking a remote control button, and a monitoring point position window is displayed;

step S105, loading a target monitoring window in the monitoring point position window;

step S106, effectiveness detection is carried out according to the remote control state of the target monitoring window;

after traversing the window handle to the target monitoring window, the control operation of the target monitoring window can be performed by sending a corresponding control command.

In one embodiment of the present application, whether the remote control state is valid may be determined by the RGB color values, for example, after a control command is sent, if a blue color value appears in the window frame, it may be indicated that the remote control state is valid.

Step S107, in response to the remote control state of the target monitoring window being valid, an interface jump instruction is sent to jump to the target interface;

the target interface can be preconfigured according to requirements, such as an EPG interface or a live channel interface, and the EPG interface (Electronic Program Guide ) is an interface for providing television program information, and generally comprises a plurality of columns, and a user can switch and select different columns in a control mode such as a direction key; a live channel interface refers to an interface on a television or other media playing device that displays a currently playing channel, and only currently playing channel information is typically displayed on the live channel interface.

And S108, controlling a cursor on the target interface to move bit by bit from the initial coordinate position to the preset coordinate position, and simultaneously intercepting and storing a set top box picture corresponding to the cursor when the cursor stays to each coordinate position in the moving process until the cursor moves to the preset coordinate position.

The coordinate position may include an X coordinate and a Y coordinate, where the corresponding Y coordinate increases or decreases when the control cursor moves up and down on the target interface, and the corresponding X coordinate increases or decreases when the control cursor moves left and right on the target interface.

It can be appreciated that the initial coordinate position and the preset coordinate position can be preconfigured and adjusted according to the user requirements; and as the cursor moves gradually from the initial coordinate position to the preset coordinate position, the set top box pictures can be correspondingly switched, and after the corresponding set top box picture when the cursor stays to each coordinate position in the moving process is intercepted, all pictures required by a user can be obtained and stored to the designated position, so that the subsequent operation analysis is convenient.

In the above embodiment, according to the device ID input by the user, the device point location state of the device is obtained, when the device point location state is normal, the remote monitoring operation is performed, the monitoring point location window corresponding to the device ID to be analyzed is displayed, and the target monitoring window is loaded, when the remote control state of the target monitoring window is effective, the user jumps to the target interface, and by controlling the cursor to move on the target interface, and in the moving process of the cursor from the initial coordinate position to the preset coordinate position, the corresponding set top box picture when the cursor stays to each coordinate position is intercepted, the remote control and monitoring of the set top box terminal can be realized, and by automatically intercepting the related picture, the analysis and processing of the content operator in the subsequent operation process are facilitated, and the manual intervention of the user is not required, thereby improving the efficiency and accuracy of the operation analysis.

It should be noted that, according to different application scenarios, the direction and distance in which the control cursor moves are also different. For example, in one embodiment of the present application, when the target interface is an EPG interface, the cursor is controlled to move leftwards until reaching a specified initial coordinate position, then the cursor is controlled to move rightwards gradually and perform screenshot, the intercepted picture is saved, and the cursor is continuously moved rightwards until reaching a preset coordinate position, so that the screenshot operation of all columns can be completed.

In another embodiment of the present application, when the target interface is a live channel interface, the cursor is controlled to move upwards until reaching the formulated initial coordinate position, then the cursor is controlled to move downwards gradually and perform screenshot, the intercepted picture is saved, and the cursor is continuously moved downwards until reaching the preset coordinate position, so that the screenshot operation of all channel numbers can be completed. In addition, for the live channel interface, since the live channel interface generally only displays the currently played channel information and does not display other program lists or details, when the cursor is controlled to move, the screen capturing can also be performed once every preset coordinate position according to actual conditions, for example, the screen is captured once every 5 times of movement.

In some embodiments, it may be further specifically configured to intercept the channel number, different content aggregation in the content displayed by the set-top box (such as sports, games, movies, and other content such as variety), startup, etc. according to a fixed daily time, automatically save the intercepted images to a specified location, and analyze the screenshot content according to a specified operation analysis method, so as to finally form an operation report, thereby improving operation efficiency.

Referring to fig. 2, as an embodiment of step S102, the step of acquiring the device point location status of the device to be analyzed according to the device ID to be analyzed includes:

step S201, determining the position of the equipment point of equipment to be analyzed according to the ID of the equipment to be analyzed;

the method comprises the steps that the device point position of the device to be analyzed on a display screen can be determined by using the ID of the device to be analyzed, and the display screen is the display screen of a controlled end and is used for displaying state indications of the device point positions;

step S202, acquiring pixel information of a state instruction corresponding to the equipment point position according to the equipment point position;

the state indication of the equipment point position can be reflected by acquiring pixel information, such as RGB color values, of the equipment point position;

it can be understood that each device point location displays a corresponding status indication, where the status indication is usually represented by a specific color, and by obtaining RGB color values of the status indication, a corresponding device point location status can be obtained, for example, green indicates an online status, black indicates an offline status, and red indicates a controlled status;

step S203, determining the corresponding device point location status based on the pixel information.

In the above embodiment, the corresponding device point location is determined according to the device ID to be analyzed, and the device point location status is determined according to the status indication corresponding to the device point location, so as to facilitate corresponding subsequent operations.

As one embodiment of step S105, the step of loading the target monitoring window in the monitoring point location window includes:

according to the target monitoring window, a window handle traversing instruction is sent;

the target monitoring window can be set according to actual requirements, for example, can be set as Sichuan telecom.

Judging whether to traverse the window handle of the target monitoring window;

if yes, loading and displaying a target monitoring window in the monitoring point position window; if not, continuing to traverse until the target monitoring window is traversed.

The window handle traversing instruction is used for traversing window handles of the monitoring point position windows, and the window handles are unique identifiers distributed by the operating system for each window.

In the above embodiment, when the software of the controlled terminal needs to load the target monitoring window, whether the loading is successful is judged by traversing the window handle, and when traversing the window handle of the target monitoring window, the monitoring window is indicated to be loaded successfully and displayed on the screen, so that the subsequent operation can be performed.

As one embodiment of step S106, the step of performing validity detection according to the remote control state of the target monitoring window includes:

a remote control instruction is sent, and whether a target monitoring window executes control operation corresponding to the remote control instruction is judged;

if yes, determining that the remote control state of the target monitoring window is effective; if not, determining that the remote control state of the target monitoring window is invalid.

The remote control command can be sent by simulating a remote controller key, and whether corresponding control operation is executed is determined by judging interface elements, monitoring window states or other modes;

in one embodiment of the present application, the judgment may be performed by using RGB color values in the screen, for example, when the analog volume key is adjusted, whether a corresponding color value appears in the screen is judged, if yes, it is indicated that the remote control state is valid, and the next operation may be performed;

in the above embodiment, whether the target monitoring window performs the corresponding control operation is observed to determine whether the remote control state of the target monitoring window is valid, so that the accuracy and the validity of the remote control operation can be ensured, and the reliability of the subsequent operation is further ensured.

As a further embodiment of the screen capturing method, after the step of determining that the remote control state of the target monitoring window is invalid, the method further includes:

and closing the target monitoring window and skipping the current equipment to be analyzed in response to the fact that the remote control state of the target monitoring window is invalid.

In the above embodiment, when it is determined that the remote control for the target monitoring window fails, the target monitoring window is closed and the current device to be analyzed is skipped, so as to perform the picture acquisition operation of the next device to be analyzed.

Referring to fig. 3, as a further embodiment of the screen capturing method, before the step of moving the cursor on the control target interface from the initial coordinate position to the preset coordinate position bit by bit, the method further includes:

step S301, determining the current coordinate position of a cursor on a target interface based on preset pixel information of the cursor;

in one embodiment of the present application, the preset pixel information may be a preset RGB color value; and acquiring pixel information of each position on the target interface, and comparing the pixel information with preset pixel information, and if the pixel information of a certain position is matched with the preset pixel information, determining the coordinate position of the cursor.

For example, the position of the cursor on the target interface is blue, and the other positions on the target interface are black, and the current coordinate position of the cursor can be determined only by searching the position of the blue RGB color value.

In step S302, the cursor is controlled to move from the current coordinate position to the initial coordinate position.

In the above embodiment, the current coordinate position of the cursor can be determined by using the preset pixel information of the cursor, and the cursor can be reset by controlling the cursor to move from the current coordinate position to the initial coordinate position, so that the follow-up moving of the cursor is convenient for performing operations such as picture acquisition.

The present application achieves The purposes of remote IPTV (Internet Protocol Television ), OTT (Over The Top, internet protocol television) and DVB (cable network digital television) television picture monitoring and execution of related operation tasks, and aims to improve The complexity and inefficiency of operations in The remote IPTV, OTT and DVB television picture operation process in The prior art. By means of remote control, the remote set top box terminal picture is obtained in real time, the influence of human factors is eliminated, the possibility of errors and omission is reduced, and the consistency and the integrity of operation results are ensured. Meanwhile, the user does not need to wait and monitor for a long time, more time and energy can be put into other works, and the technical innovation is beneficial to improving the operation efficiency of the television content operators.

Referring to fig. 4, in order to solve the requirement of simultaneously executing an automation task by multiple device points, a task distributing end in a virtual machine checks the device points needed to execute the above-mentioned image acquisition method, and distributes all device IDs to be analyzed and corresponding tasks to task executing ends in each virtual machine uniformly through TCP connection, and the task executing ends start executing the above-mentioned image acquisition method after receiving a TCP request from the task distributing end; the task can be an EPG interface screenshot task or a live channel interface screenshot task, and returns an action packet for completing the task after the execution is completed, and the task distribution terminal cancels the equipment point positions which are already completed by the execution on the control panel after receiving the action packet, thereby realizing the automatic task of simultaneously executing the picture acquisition of the set top box by multiple point positions and improving the operation analysis efficiency.

The embodiment of the application discloses a picture acquisition system for operation analysis of a set top box.

A picture acquisition system for set-top box operation analysis, comprising:

the receiving module is used for receiving the equipment ID to be analyzed input by the user;

the device point position state acquisition module is used for acquiring the device point position state of the device to be analyzed according to the ID of the device to be analyzed;

the remote monitoring instruction sending module is used for responding to the on-line state of the point position state of the equipment to initiate a remote monitoring instruction;

the display module is used for displaying a monitoring point position window corresponding to the equipment ID to be analyzed according to the remote monitoring instruction, and loading a target monitoring window in the monitoring point position window;

the validity detection module is used for carrying out validity detection according to the remote control state of the target monitoring window;

the interface jump instruction sending module is used for responding to the fact that the remote control state of the target monitoring window is valid, and sending an interface jump instruction to jump to the target interface;

the control processing module is used for controlling the cursor on the target interface to move bit by bit from the initial coordinate position to the preset coordinate position, and meanwhile, intercepting and storing the corresponding set top box picture when the cursor stays to each coordinate position in the moving process until the cursor moves to the preset coordinate position.

In the embodiment, the remote control and monitoring of the set top box terminal can be realized by controlling the cursor to move on the target interface and intercepting the corresponding set top box picture when the cursor stays to each coordinate position in the moving process of the cursor from the initial coordinate position to the preset coordinate position, and the related picture is automatically intercepted, so that the analysis and processing of a content operator in the subsequent operation process are convenient, and the manual intervention of a user is not needed, thereby improving the efficiency and accuracy of the operation analysis.

The image acquisition system of the embodiment of the application can realize any one of the above-mentioned image acquisition methods, and the specific working process of each module in the image acquisition system can refer to the corresponding process in the above-mentioned method embodiment.

In several embodiments provided herein, it should be understood that the provided methods and systems may be implemented in other ways. For example, the system embodiments described above are merely illustrative; for example, a division of a module is merely a logical function division, and there may be another division manner in actual implementation, for example, multiple modules may be combined or may be integrated into another system, or some features may be omitted or not performed.

The embodiment of the application also discloses a computer device.

A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing a picture acquisition method as described above when executing the computer program.

The embodiment of the application also discloses a computer readable storage medium.

A computer-readable storage medium storing a computer program capable of being loaded by a processor and executing any one of the screen capturing methods described above.

Wherein a computer readable storage medium may be any tangible medium that can contain, or store a program for use by or in connection with an instruction execution system, apparatus, or device; program code embodied on a computer readable medium may be transmitted using any appropriate medium, including but not limited to wireless, wireline, optical fiber cable, RF, etc., or any suitable combination of the foregoing.

In the foregoing embodiments, the descriptions of the embodiments are focused on, and for those portions of one embodiment that are not described in detail, reference may be made to the related descriptions of other embodiments.

The foregoing description of the preferred embodiments of the present application is not intended to limit the scope of the application, in which any feature disclosed in this specification (including abstract and drawings) may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise. That is, each feature is one example only of a generic series of equivalent or similar features, unless expressly stated otherwise.

Claims (10)

1. A picture acquisition method for operation analysis of a set-top box, comprising:

receiving an equipment ID to be analyzed input by a user;

acquiring the equipment point position state of the equipment to be analyzed according to the equipment ID to be analyzed;

responding to the equipment point position state as an on-line state, and initiating a remote monitoring instruction;

displaying a monitoring point position window corresponding to the equipment ID to be analyzed according to the remote monitoring instruction;

loading a target monitoring window in the monitoring point position window;

performing validity detection according to the remote control state of the target monitoring window;

responding to the fact that the remote control state of the target monitoring window is effective, and sending an interface jump instruction to jump to a target interface;

and controlling the cursor on the target interface to move bit by bit from the initial coordinate position to the preset coordinate position, and simultaneously intercepting and storing the corresponding set top box picture when the cursor stays to each coordinate position in the moving process until the cursor moves to the preset coordinate position.

2. The method of claim 1, wherein the target interface comprises an EPG interface or a live channel interface.

3. The picture obtaining method for operation analysis of a set-top box according to claim 1, wherein the step of obtaining the device point location status of the device to be analyzed according to the device ID to be analyzed comprises:

determining the equipment point position of the equipment to be analyzed according to the equipment ID to be analyzed;

acquiring pixel information of a state indication corresponding to the equipment point position according to the equipment point position;

and determining the corresponding equipment point position state based on the pixel information.

4. A picture acquisition method for set-top box operation analysis according to claim 3, wherein the step of loading a target monitoring window in the monitoring point location window comprises:

according to the target monitoring window, a window handle traversing instruction is sent;

judging whether to traverse the window handle of the target monitoring window;

if yes, loading and displaying the target monitoring window in the monitoring point position window.

5. The picture acquisition method for operation analysis of a set-top box according to claim 1, wherein the step of performing validity detection according to the remote control state of the target monitoring window comprises:

a remote control instruction is sent, and whether the target monitoring window executes control operation corresponding to the remote control instruction is judged;

if yes, determining that the remote control state of the target monitoring window is effective; if not, determining that the remote control state of the target monitoring window is invalid.

6. The picture acquisition method for set-top box operation analysis according to claim 5, further comprising, after the step of determining that the remote control state of the target monitoring window is invalid:

and closing the target monitoring window and skipping the equipment to be analyzed in response to the fact that the remote control state of the target monitoring window is invalid.

7. The method for obtaining a picture for operation analysis of a set-top box according to any one of claims 1 to 6, further comprising, before the step of controlling the cursor on the target interface to move bitwise from an initial coordinate position to a preset coordinate position:

determining the current coordinate position of the cursor on the target interface based on the preset pixel information of the cursor;

and controlling the cursor to move from the current coordinate position to the initial coordinate position.

8. A picture acquisition system for set-top box operation analysis, comprising:

the receiving module is used for receiving the equipment ID to be analyzed input by the user;

the equipment point position state acquisition module is used for acquiring the equipment point position state of the equipment to be analyzed according to the equipment ID to be analyzed;

the remote monitoring instruction sending module is used for responding to the equipment point position state as an on-line state and initiating a remote monitoring instruction;

the display module is used for displaying a monitoring point position window corresponding to the equipment ID to be analyzed according to the remote monitoring instruction, and loading a target monitoring window in the monitoring point position window;

the validity detection module is used for carrying out validity detection according to the remote control state of the target monitoring window;

the interface jump instruction sending module is used for responding to the fact that the remote control state of the target monitoring window is valid, and sending an interface jump instruction to jump to a target interface;

and the control processing module is used for controlling the cursor on the target interface to move bit by bit from the initial coordinate position to the preset coordinate position, and simultaneously intercepting and storing the corresponding set top box picture when the cursor stays to each coordinate position in the moving process until the cursor moves to the preset coordinate position.

9. A computer device, comprising: memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the method according to any one of claims 1 to 7 when the computer program is executed.

10. A computer-readable storage medium, characterized by: a computer program stored which can be loaded by a processor and which performs the method according to any one of claims 1 to 7.