CN116915959B - Monitoring data processing method and system - Google Patents

Abstract

The application provides a monitoring data processing method and a system, which are used for obtaining a plan view of each layer of monitoring area in a monitoring target, generating a corresponding first monitoring display interface according to the plan view, receiving point position configuration information of a user, and generating monitoring position points corresponding to each monitoring device in the first monitoring display interface; the video display slot position corresponding to the monitoring position point is called, the range indication frame is called according to the equipment information of the monitoring equipment, the video display slot position is positioned based on the monitoring position point and the center point of the video display slot position, and the range indication frame is positioned based on the vertex of the monitoring position point and the range indication frame; and responding to the initialization instruction, carrying out angle initialization calibration processing on each range indication frame, receiving angle configuration information input by the management end to the corresponding monitoring position point, and adjusting the indication angle of the range indication frame according to the angle configuration information to obtain a second monitoring display interface.

Description

Monitoring data processing method and system

Technical Field

The present application relates to data processing technology, and in particular, to a method and system for monitoring data processing.

Background

With the improvement of people's safety consciousness, security protection systems are commonly applied to people's daily life. Among them, the monitoring system is one of the most applied systems in security systems, and video monitoring is the mainstream nowadays.

In the prior art, in order to display the video monitoring images, a user can learn real-time conditions of a plurality of area positions through the displayed monitoring images, typically, the monitoring images of each monitoring device are displayed through a display screen, during display, the display screen is generally divided into a plurality of rectangular cells, for example, in the form of nine-grid cells, and then the monitoring images of the plurality of area positions are displayed through the rectangular cells, but the display mode cannot intuitively learn the area positions of specific shooting of each monitoring image, so that the user cannot quickly correspond the plurality of monitoring images to the plurality of area positions.

Therefore, how to customize the monitoring images in combination with the area data of the monitoring target, so that the user can intuitively display the specific shooting area of each monitoring image, which is a problem to be solved in the present day.

Disclosure of Invention

The embodiment of the application provides a monitoring data processing method and a system, which can be used for customizing monitoring pictures by combining area data of a monitoring target so as to enable a user to intuitively display specific shooting areas of each monitoring picture.

In a first aspect of an embodiment of the present application, there is provided a method for processing monitoring data, including:

obtaining a plan view of each layer of monitoring area in a monitoring target, generating a corresponding first monitoring display interface according to the plan view, receiving point position configuration information of a user, and generating monitoring position points corresponding to each monitoring device in the first monitoring display interface;

the video display slot position corresponding to the monitoring position point is called, a range indication frame is called according to the equipment information of the monitoring equipment, the video display slot position is positioned based on the monitoring position point and the center point of the video display slot position, and the range indication frame is positioned based on the monitoring position point and the top point of the range indication frame;

responding to an initialization instruction, carrying out angle initialization calibration processing on each range indication frame, receiving angle configuration information input by a management end to the corresponding monitoring position point, and adjusting the indication angle of the range indication frame according to the angle configuration information to obtain a second monitoring display interface;

and generating a management interface corresponding to the monitoring target, displaying the second monitoring display interface of the corresponding level according to a picture display area of the management interface, acquiring dynamic detection information of each monitoring video, and calling the corresponding monitoring video to display in a dynamic display area of the management interface according to the dynamic detection information.

Optionally, in one possible implementation manner of the first aspect, the calling a video display slot corresponding to the monitoring location point, calling a range indication frame according to device information of the monitoring device, positioning the video display slot based on the monitoring location point and a center point of the video display slot, and positioning the range indication frame based on the monitoring location point and a vertex of the range indication frame, including:

the video display slot positions corresponding to the monitoring position points are called, slot position center points of the video display slot positions are obtained, the slot position center points are positioned based on the monitoring position points, the video display slot positions are filled into the first monitoring display interface, and monitoring videos collected by corresponding monitoring equipment are obtained and filled into the video display slot positions;

and retrieving a range indication frame corresponding to the monitoring equipment according to the equipment information of the monitoring equipment, positioning the vertex of the range indication frame based on the monitoring position point, and filling the range indication frame into the corresponding video display slot.

Optionally, in one possible implementation manner of the first aspect, in response to an initialization instruction, performing an angle initialization calibration process on each range indication frame, receiving angle configuration information input by a management end to a corresponding monitoring location point, and adjusting an indication angle of the range indication frame according to the angle configuration information to obtain a second monitoring display interface, where the method includes:

responding to an initialization instruction, acquiring preset zero degree calibration points corresponding to each monitoring device, and performing angle initialization calibration processing on the corresponding range indication frame according to the zero degree calibration points;

and receiving a monitoring acquisition angle input by the management end to the corresponding monitoring position point, and adjusting the indication angle of the range indication frame according to the monitoring acquisition angle to obtain a second monitoring display interface.

Optionally, in one possible implementation manner of the first aspect, responding to the initialization instruction, obtaining a zero degree calibration point corresponding to each monitoring device, and performing an angle initialization calibration process on the corresponding range indication frame according to the zero degree calibration point, where the method includes:

acquiring an arc length center point corresponding to the range indication frame, connecting the arc length center point and the vertex corresponding to the range indication frame, and obtaining an angle indication line corresponding to the range indication frame, wherein the range indication frame is a sector indication frame;

and connecting the zero degree calibration point with the monitoring position point to obtain a zero degree calibration line, and controlling the range indication frame to perform angle initialization adjustment until the angle indication line and the zero degree calibration line are aligned, and stopping the indication angle adjustment of the range indication frame.

Optionally, in one possible implementation manner of the first aspect, the method further includes:

acquiring the overlapping area between the adjacent range indication frames, and generating angle callback information when the overlapping area is larger than 0;

and responding to the angle callback information, acquiring a range indication frame with a larger monitoring acquisition angle from adjacent range indication frames as a callback indication frame, and callback the indication angle of the callback indication frame until the overlapping area is 0, and stopping callback the indication angle of the callback indication frame.

Optionally, in one possible implementation manner of the first aspect, generating a management interface corresponding to the monitoring target, displaying the second monitoring display interface of a corresponding level according to a picture display area of the management interface, obtaining dynamic detection information of each monitoring video, and calling the corresponding monitoring video according to the dynamic detection information to display in a dynamic display area of the management interface, where the method includes:

receiving the dividing information of the management interface by the management terminal to obtain a menu display area, a picture display area and a dynamic display area;

generating a hierarchical click sequence according to the hierarchical information of the monitoring target, and filling the hierarchical click sequence into the menu display area for display;

receiving first click information of the user side on the hierarchical click sequence, and calling the second monitoring display interface of the corresponding hierarchy based on the first click information to fill the second monitoring display interface into the picture display area for display;

and acquiring dynamic detection information of each monitoring video, acquiring a plurality of dynamic videos according to the dynamic detection information, and displaying each dynamic video in the dynamic display area.

Optionally, in one possible implementation manner of the first aspect, generating a hierarchical click sequence according to the hierarchical information of the monitoring target, and filling the hierarchical click sequence into the menu display area for display, including:

generating virtual hierarchy keys corresponding to the hierarchy information, and arranging the virtual hierarchy keys from small to large according to the hierarchy information to obtain a hierarchy click sequence;

and filling each virtual level key in the level click sequence into the menu display area according to a first direction for display.

Optionally, in one possible implementation manner of the first aspect, acquiring dynamic detection information of each monitoring video, obtaining a plurality of dynamic videos according to the dynamic detection information, and displaying each dynamic video in the dynamic display area includes:

analyzing the dynamic detection information to obtain dynamic information and static information, and obtaining a monitoring video with the dynamic detection information being the dynamic information as a dynamic video;

counting the number of dynamic objects in each dynamic video, arranging each dynamic video according to the number of the dynamic objects to obtain a dynamic video sequence, and displaying each dynamic video in the dynamic display area according to the dynamic video sequence.

Optionally, in one possible implementation manner of the first aspect, the method further includes:

receiving second click information of a user side on the dynamic video in the dynamic display area, and acquiring monitoring equipment corresponding to the dynamic video based on the second click information to serve as salient equipment, and a second monitoring display interface corresponding to the salient equipment to serve as salient monitoring display interface;

and acquiring video display slots corresponding to the protruding equipment in the protruding monitoring display interface as protruding display slots, changing the pixel values of the protruding display slots according to preset pixel values to obtain a third monitoring display interface, and displaying the third monitoring display interface based on a picture display area in the management interface.

In a second aspect of an embodiment of the present application, there is provided a monitoring data processing system, comprising:

the position module is used for acquiring a plan view of each layer of monitoring area in the monitoring target, generating a corresponding first monitoring display interface according to the plan view, receiving point position configuration information of a user, and generating monitoring position points corresponding to each monitoring device in the first monitoring display interface;

the range module is used for retrieving the video display slot position corresponding to the monitoring position point, retrieving a range indication frame according to the equipment information of the monitoring equipment, positioning the video display slot position based on the monitoring position point and the central point of the video display slot position, and positioning the range indication frame based on the monitoring position point and the vertex of the range indication frame;

the monitoring module is used for responding to the initialization instruction, carrying out angle initialization calibration processing on each range indication frame, receiving angle configuration information input by the management end to the corresponding monitoring position point, and adjusting the indication angle of the range indication frame according to the angle configuration information to obtain a second monitoring display interface;

the display module is used for generating a management interface corresponding to the monitoring target, displaying the second monitoring display interface of the corresponding level according to the picture display area of the management interface, acquiring dynamic detection information of each monitoring video, and calling the corresponding monitoring video according to the dynamic detection information to display in the dynamic display area of the management interface.

The beneficial effects of the application are as follows:

1. the application can customize the monitoring picture by combining the area data of the monitoring target so as to enable a user to intuitively display the specific shooting area of each monitoring picture. According to the application, the monitoring position points of each monitoring device in the corresponding plan view of the monitoring area are obtained first, and then the monitoring video and the monitoring range of each monitoring device are displayed through the monitoring display interface through the monitoring position points, so that the specific positions of each monitoring device in the monitoring area and the shooting video and the shooting range of each monitoring device during monitoring can be intuitively displayed through the monitoring display interface, and a user can know the positions of the specific areas shot by a plurality of monitoring devices in the monitoring area. And because multiple layers of monitoring areas possibly exist, the application can display the level information through the menu display area in the management interface, so that the monitoring display interface corresponding to the level information can be called according to the level information selected by a user in the menu display area and displayed in the picture display area in the management interface.

2. When the specific positions of all monitoring devices in a monitoring area and the shooting video and the shooting range of all monitoring devices are intuitively displayed through the monitoring display interface, the video display slots corresponding to all the monitoring devices are positioned through the monitoring position points, then the shooting video shot by all the monitoring devices is displayed through the video display slots, the range indication frames corresponding to all the monitoring devices are positioned through the monitoring position points, and the shooting range of the monitoring devices is displayed through the range indication frames. In practical application, because the shooting angles of each monitoring device may be different, the application also initializes and adjusts the angles of each range indicating frame according to the zero degree calibration point corresponding to each monitoring position point, so that the angles of each range indicating frame are all positioned at the zero degree angle, thereby being capable of being uniformly adjusted, then adjusting the indicating angles of each range indicating frame according to the monitoring rotation angle input by a user, so that the rotation angle of each range indicating frame can correspond to the rotation angle of the corresponding monitoring device, and the specific area range when the corresponding monitoring device is shot can be intuitively displayed through the range indicating frame.

3. In the application, the monitoring videos corresponding to the dynamic detection information are displayed through the management interface, and in practical application, the dynamic detection information can be information when the person is detected, so that the actions of the person in the monitoring videos can be displayed through the management interface. When a user clicks one of the monitoring videos corresponding to the dynamic detection information, the method and the device also acquire the hierarchy corresponding to the monitoring video and the monitoring display interface corresponding to the hierarchy, and the video display slot positions corresponding to the monitoring videos in the monitoring display interface are highlighted, so that the specific positions of the shooting areas corresponding to the corresponding monitoring videos can be displayed through the management interface, and the user can know the specific positions of the shooting areas corresponding to the dynamic videos.

Drawings

Fig. 1 is a schematic diagram of a management interface corresponding to first click information provided in an embodiment of the present application;

fig. 2 is a schematic diagram of a management interface corresponding to second click information provided in an embodiment of the present application;

FIG. 3 is a schematic diagram of a monitoring data processing system according to an embodiment of the present application.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by persons of ordinary skill in the art based on the embodiments of the application without making any inventive effort, are intended to fall within the scope of the application.

The execution body of the present application may include, but is not limited to, at least one of: user equipment, network equipment, etc. The user equipment may include, but is not limited to, computers, smart phones, personal digital assistants (Personal Digital Assistant, abbreviated as PDA), and the above-mentioned electronic devices. The network device may include, but is not limited to, a single network server, a server group of multiple network servers, or a cloud of a large number of computers or network servers based on cloud computing, where cloud computing is one of distributed computing, and a super virtual computer consisting of a group of loosely coupled computers. This embodiment is not limited thereto. The method comprises the steps S1 to S4, and specifically comprises the following steps:

s1, obtaining a plan view of each layer of monitoring area in a monitoring target, generating a corresponding first monitoring display interface according to the plan view, receiving point position configuration information of a user, and generating monitoring position points corresponding to each monitoring device in the first monitoring display interface.

In practical application, the monitoring target may be a multi-storey building, such as a factory storey building, and there are multiple storey monitoring areas in the storey building, so in order to intuitively display the positions of the areas corresponding to the monitoring devices in each storey of monitoring areas, a plan corresponding to each storey of monitoring area may be obtained first, and then the monitoring information corresponding to each monitoring device may be displayed subsequently according to the plan.

It can be understood that the monitored areas of the monitoring devices in the monitored areas may be different, so in order to obtain the location points of the monitoring devices through the plan, the corresponding monitoring location points of the monitoring devices in the plan can be obtained through the point location configuration information configured by the user for the monitoring devices. The point location configuration information is position point information configured for each monitoring device by a user.

S2, calling a video display slot position corresponding to the monitoring position point, calling a range indication frame according to equipment information of the monitoring equipment, positioning the video display slot position based on the monitoring position point and a center point of the video display slot position, and positioning the range indication frame based on the monitoring position point and a vertex of the range indication frame.

It can be understood that, because the shooting areas of each monitoring device may be different, the shooting pictures and the shooting ranges corresponding to each monitoring device may also be different, so in order to show the shooting pictures and the shooting ranges of each monitoring device, the video showing slot is called to show the shooting pictures collected by the monitoring device, and the shooting ranges of the monitoring device are shown by the range indication frames corresponding to the monitoring device, so that a user can intuitively see the shooting pictures and the shooting ranges of the monitoring devices at different area positions.

The specific implementation manner of step S2 based on the above embodiment may be:

s21, calling a video display slot corresponding to the monitoring position point, obtaining a slot center point of the video display slot, positioning the slot center point based on the monitoring position point, filling the video display slot into the first monitoring display interface, and obtaining a monitoring video collected by the corresponding monitoring equipment to be filled into the video display slot.

In practical application, the specification of the video display slot position can be correspondingly set by the staff according to the display requirement, and the specification of the video display slot position corresponding to each monitoring device can be set to be the same. The video presentation slots may be rectangular and may be obtained by intersecting diagonal lines when the center point of the video presentation slot is acquired.

S22, retrieving a range indication frame corresponding to the monitoring equipment according to the equipment information of the monitoring equipment, positioning the vertex of the range indication frame based on the monitoring position point, and filling the range indication frame into the corresponding video display slot.

It can be understood that, because the device information of each monitoring device may be different, the shooting ranges when the monitoring devices collect the shot videos may be different, so the scheme can call the corresponding range indication frame according to the device information corresponding to each monitoring device, and then fill the corresponding range indication frame into the corresponding video display slot for display.

It should be noted that in practical application, the shooting range of the monitoring device is generally a sector area, so the range indication frame in the scheme is a sector indication frame, and therefore, when the range indication frame is filled, the vertex and the monitoring position point of the range indication frame can be aligned to fill the range indication frame, and the range indication frame is a dotted line frame, so that the shielding of a real-time picture of the monitoring video can be reduced when the monitoring range is displayed.

Through the mode, the specific monitoring position of each monitoring device can be displayed, and meanwhile, the shooting video and the shooting range of each monitoring device can be correspondingly displayed.

And S3, responding to the initialization instruction, carrying out angle initialization calibration processing on each range indication frame, receiving angle configuration information input by the management end to the corresponding monitoring position point, and adjusting the indication angle of the range indication frame according to the angle configuration information to obtain a second monitoring display interface.

It can be understood that the angle configuration information configured by the management end for each monitoring device may be different, so in order to uniformly adjust the indication angles of the range indication frames of each monitoring device according to the angle configuration information, the range indication frames may be initialized and calibrated so as to be located at the zero-degree angle, and then the indication angles of the range indication frames are uniformly adjusted according to the angle configuration information.

It should be noted that the angle configuration information is a circumferential rotation angle on a plane configured by the management end for the monitoring device, rather than an up-down rotation angle.

The specific implementation manner of step S3 based on the above embodiment may be:

s31, responding to an initialization instruction, acquiring preset zero degree calibration points corresponding to the monitoring devices, and performing angle initialization calibration processing on the corresponding range indication frames according to the zero degree calibration points.

The zero degree calibration points may be configured in advance for each monitoring position point by the work person, in practical application, the work person may set a calibration identifier for each monitoring device, when the monitoring device is aligned with the calibration identifier, the monitoring device may be considered to be located at a position of a zero degree angle at this time, and the zero degree calibration points may correspond to the position points of the calibration identifier.

In some embodiments, step S31 includes steps S311 to S312, which are specifically as follows:

s311, acquiring an arc length center point corresponding to the range indication frame, connecting the arc length center point and the vertex corresponding to the range indication frame, and obtaining an angle indication line corresponding to the range indication frame, wherein the range indication frame is a sector indication frame.

It will be appreciated that in order to determine the rotation angle of the range indicator frame, the rotation angle of the range indicator frame may be derived from an angle indicator line between the arc length center point and the apex point and a zero degree calibration line that is subsequently derived.

S312, connecting the zero degree calibration point and the monitoring position point to obtain a zero degree calibration line, and controlling the range indication frame to perform angle initialization adjustment until the angle indication line and the zero degree calibration line are aligned, and stopping the indication angle adjustment of the range indication frame.

It can be understood that when the angle indication line is aligned with the zero degree calibration line, the position of the range indication frame is a zero degree position point, and the adjustment of the indication angle of the range indication frame can be stopped at this time, so that the angle initialization adjustment of the range indication frame is completed.

S32, receiving a monitoring acquisition angle input by the management end to the corresponding monitoring position point, and adjusting the indication angle of the range indication frame according to the monitoring acquisition angle to obtain a second monitoring display interface.

When the indication angle of the range indication frame is adjusted according to the monitoring acquisition angle, the indication angle of the range indication frame can be obtained through the angle between the zero-degree calibration line and the angle indication line, and the adjustment of the indication angle of the range indication frame is stopped until the indication angle is consistent with the monitoring acquisition angle.

Through the mode, the specific shooting area of each monitoring device, the real-time shooting picture in each monitoring area and the specific shooting range of each monitoring area can be intuitively known through the second monitoring display interface.

In addition, on the basis of the scheme, the scheme further comprises the following embodiments:

and acquiring the overlapping area between the adjacent range indication frames, and generating angle callback information when the overlapping area is larger than 0.

It will be appreciated that in practical applications, there may be situations where the monitoring ranges of adjacent monitoring devices overlap, in which case, in order to reduce repeated shooting of the same shooting area, the monitoring angles of the monitoring devices may be recalled. It should be noted that the indication angle of the range indication frame corresponds to the monitoring angle of the corresponding monitoring device, so that the callback of the indication angle of the range indication frame is the callback of the monitoring angle of the corresponding monitoring device.

And responding to the angle callback information, acquiring a range indication frame with a larger monitoring acquisition angle from adjacent range indication frames as a callback indication frame, and callback the indication angle of the callback indication frame until the overlapping area is 0, and stopping callback the indication angle of the callback indication frame.

Wherein, the larger monitoring acquisition angle means that the adjustment angle relative to the zero degree calibration line is relatively larger. It can be understood that the indication angle of the indication frame with the larger monitoring collection angle indication range is larger, so that the indication angle of the indication frame with the larger monitoring collection angle indication range can be recalled during recall, so that the monitoring area is not repeated, and the repeated monitoring of the same monitoring area can be reduced.

And S4, generating a management interface corresponding to the monitoring target, displaying the second monitoring display interface of the corresponding level according to the picture display area of the management interface, acquiring dynamic detection information of each monitoring video, and calling the corresponding monitoring video according to the dynamic detection information to display in the dynamic display area of the management interface.

It can be understood that, since the monitoring target may have multiple layers of monitoring areas, the second monitoring display interfaces corresponding to each layer of monitoring area may be different, so that the second monitoring display interfaces corresponding to the user-selected hierarchy may be displayed through the management interface.

In addition, besides displaying the second monitoring display interface, the scheme can also call the monitoring video corresponding to the dynamic detection information to be displayed in a dynamic display area in the management interface. The dynamic detection information is detection information of a dynamic object, and in practical application, the dynamic object can be a person. The dynamic detection may be in the prior art, and will not be described in detail herein.

The specific implementation manner of step S4 based on the above embodiment may be:

s41, receiving the division information of the management interface by the management end to obtain a menu display area, a picture display area and a dynamic display area.

In practical application, the user can divide the management interface according to the display requirement. The menu display area is used for displaying the hierarchical click information, the picture display area is used for displaying a monitoring display interface, and the dynamic display area is used for displaying a monitoring video corresponding to the dynamic detection information.

S42, generating a hierarchical click sequence according to the hierarchical information of the monitoring target, and filling the hierarchical click sequence into the menu display area for display.

It can be understood that, in order to enable the user to select the second monitoring display interface of the corresponding hierarchy to display in the picture display area, the menu display area can display a plurality of hierarchy information, and then the user can select the hierarchy information of the menu display area to display the corresponding second monitoring display interface in the picture display area.

S421, generating virtual hierarchy keys corresponding to the hierarchy information, and arranging the virtual hierarchy keys from small to large according to the hierarchy information to obtain a hierarchy click sequence.

In practical applications, the shape of the virtual hierarchy key may be set by the user according to the needs, for example, may be a circle.

S422, filling all the virtual hierarchy keys in the hierarchy click sequence into the menu display area for display according to a first direction.

In practical applications, the first direction may be set according to user preference, for example, from top to bottom.

S43, receiving first click information of the user side on the hierarchical click sequence, and calling the second monitoring display interface of the corresponding hierarchy based on the first click information to fill the second monitoring display interface into the picture display area for display.

Referring to fig. 1, a schematic diagram of a management interface corresponding to first click information provided in an embodiment of the present application is shown. As can be seen from fig. 1, when the user selects the third virtual level key in the vertical direction, the scheme invokes the second monitoring display interface corresponding to the virtual level key to fill into the picture display area in the management interface for display.

By the method, the second monitoring display interface corresponding to the corresponding level information can be displayed according to the level information selected by the user, so that the user can know the specific monitoring information of each monitoring device in the corresponding level.

S44, acquiring dynamic detection information of each monitoring video, obtaining a plurality of dynamic videos according to the dynamic detection information, and displaying each dynamic video in the dynamic display area.

It can be understood that when a dynamic object is detected in the monitoring video, the dynamic object in the scheme can be a person, which indicates that the action of the person exists in the area, so that the corresponding dynamic video can be displayed in the dynamic display area, and the user can monitor the action of the person in the corresponding area.

In some embodiments, step S44 includes steps S441 to S442, which are specifically as follows:

s441, analyzing the dynamic detection information to obtain dynamic information and static information, and obtaining a monitoring video with the dynamic detection information being the dynamic information as a dynamic video.

The dynamic information is information when the person is detected, and the static information is information when the person is not detected.

S442, counting the number of dynamic objects in each dynamic video, arranging each dynamic video according to the number of the dynamic objects to obtain a dynamic video sequence, and displaying each dynamic video in the dynamic display area according to the dynamic video sequence.

It can be understood that the more the number of dynamic objects is, the more the detected characters in the corresponding dynamic video may be, so that in order to facilitate the user to observe the movements of multiple characters, the dynamic video with a large number of dynamic objects may be arranged at the front end of the dynamic display area for preferential display.

Through the mode, the dynamic video with the characters can be displayed through the dynamic display area, so that a user can know the movements of the characters.

In addition, on the basis of the scheme, the scheme further comprises the following embodiments:

s45, receiving second click information of the user side on the dynamic video in the dynamic display area, acquiring monitoring equipment corresponding to the dynamic video based on the second click information to serve as protruding equipment, and taking a second monitoring display interface corresponding to the protruding equipment as a protruding monitoring display interface.

It can be understood that in practical application, the dynamic videos may be many, the areas corresponding to each dynamic video may be different, and the user may want to know where the shooting area corresponding to one of the dynamic videos is, in this case, the specific shooting area of the dynamic video selected by the user is highlighted through the picture display area, so that the user may know the specific shooting area corresponding to the dynamic video.

Specifically, the scheme can acquire the monitoring equipment corresponding to the corresponding dynamic video according to the second click information of the user, then find a second monitoring display interface corresponding to the monitoring equipment, and highlight and display the specific shooting area corresponding to the dynamic video in the follow-up through the second monitoring display interface.

S46, acquiring video display slots corresponding to the protruding equipment in the protruding monitoring display interface as protruding display slots, changing the pixel values of the protruding display slots according to preset pixel values to obtain a third monitoring display interface, and displaying the third monitoring display interface based on a picture display area in the management interface.

Referring to fig. 2, a schematic diagram of a management interface corresponding to second click information provided in an embodiment of the present application is shown. As can be seen from fig. 2, there may be a plurality of shooting areas in the second monitoring display interface corresponding to the dynamic video, so in order to enable the user to know which shooting area the dynamic video specifically corresponds to, the video display slot corresponding to the corresponding shooting area may be highlighted by a preset pixel value, and in practical application, the preset pixel value may be set in advance by the user according to the needs.

By the method, the management interface can display the specific position of the shooting area corresponding to the corresponding dynamic video, so that a user can know the specific position of the shooting area corresponding to the dynamic video.

Referring to fig. 3, a schematic structural diagram of a monitoring data processing system according to an embodiment of the present application is provided, where the monitoring data processing system includes:

the position module is used for acquiring a plan view of each layer of monitoring area in the monitoring target, generating a corresponding first monitoring display interface according to the plan view, receiving point position configuration information of a user, and generating monitoring position points corresponding to each monitoring device in the first monitoring display interface;

the range module is used for retrieving the video display slot position corresponding to the monitoring position point, retrieving a range indication frame according to the equipment information of the monitoring equipment, positioning the video display slot position based on the monitoring position point and the central point of the video display slot position, and positioning the range indication frame based on the monitoring position point and the vertex of the range indication frame;

the monitoring module is used for responding to the initialization instruction, carrying out angle initialization calibration processing on each range indication frame, receiving angle configuration information input by the management end to the corresponding monitoring position point, and adjusting the indication angle of the range indication frame according to the angle configuration information to obtain a second monitoring display interface;

the display module is used for generating a management interface corresponding to the monitoring target, displaying the second monitoring display interface of the corresponding level according to the picture display area of the management interface, acquiring dynamic detection information of each monitoring video, and calling the corresponding monitoring video according to the dynamic detection information to display in the dynamic display area of the management interface.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; while the application has been described in detail with reference to the foregoing embodiments, it will be appreciated by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the application.

Claims (9)

1. A method of monitoring data processing, comprising:

obtaining a plan view of each layer of monitoring area in a monitoring target, generating a corresponding first monitoring display interface according to the plan view, receiving point position configuration information of a user, and generating monitoring position points corresponding to each monitoring device in the first monitoring display interface;

the video display slot position corresponding to the monitoring position point is called, a range indication frame is called according to the equipment information of the monitoring equipment, the video display slot position is positioned based on the monitoring position point and the center point of the video display slot position, and the range indication frame is positioned based on the monitoring position point and the top point of the range indication frame;

responding to an initialization instruction, carrying out angle initialization calibration processing on each range indication frame, receiving angle configuration information input by a management end to the corresponding monitoring position point, and adjusting the indication angle of the range indication frame according to the angle configuration information to obtain a second monitoring display interface;

generating a management interface corresponding to the monitoring target, displaying the second monitoring display interface of the corresponding level according to a picture display area of the management interface, acquiring dynamic detection information of each monitoring video, and calling the corresponding monitoring video to display in a dynamic display area of the management interface according to the dynamic detection information;

generating a management interface corresponding to the monitoring target, displaying the second monitoring display interface of the corresponding level according to a picture display area of the management interface, obtaining dynamic detection information of each monitoring video, and calling the corresponding monitoring video to display in a dynamic display area of the management interface according to the dynamic detection information, wherein the method comprises the following steps:

receiving the dividing information of the management interface by the management terminal to obtain a menu display area, a picture display area and a dynamic display area;

generating a hierarchical click sequence according to the hierarchical information of the monitoring target, and filling the hierarchical click sequence into the menu display area for display;

receiving first click information of the user side on the hierarchical click sequence, and calling the second monitoring display interface of the corresponding hierarchy based on the first click information to fill the second monitoring display interface into the picture display area for display;

and acquiring dynamic detection information of each monitoring video, acquiring a plurality of dynamic videos according to the dynamic detection information, and displaying each dynamic video in the dynamic display area.

2. The method of claim 1, wherein the step of determining the position of the substrate comprises,

the video display slot position corresponding to the monitoring position point is called, the range indication frame is called according to the equipment information of the monitoring equipment, the video display slot position is positioned based on the monitoring position point and the center point of the video display slot position, the range indication frame is positioned based on the monitoring position point and the top point of the range indication frame, and the video display slot position control method comprises the following steps:

the video display slot positions corresponding to the monitoring position points are called, slot position center points of the video display slot positions are obtained, the slot position center points are positioned based on the monitoring position points, the video display slot positions are filled into the first monitoring display interface, and monitoring videos collected by corresponding monitoring equipment are obtained and filled into the video display slot positions;

and retrieving a range indication frame corresponding to the monitoring equipment according to the equipment information of the monitoring equipment, positioning the vertex of the range indication frame based on the monitoring position point, and filling the range indication frame into the corresponding video display slot.

3. The method of claim 2, wherein the step of determining the position of the substrate comprises,

responding to an initialization instruction, carrying out angle initialization calibration processing on each range indication frame, receiving angle configuration information input by a management end to the corresponding monitoring position point, and adjusting the indication angle of the range indication frame according to the angle configuration information to obtain a second monitoring display interface, wherein the method comprises the following steps:

responding to an initialization instruction, acquiring preset zero degree calibration points corresponding to each monitoring device, and performing angle initialization calibration processing on the corresponding range indication frame according to the zero degree calibration points;

and receiving a monitoring acquisition angle input by the management end to the corresponding monitoring position point, and adjusting the indication angle of the range indication frame according to the monitoring acquisition angle to obtain a second monitoring display interface.

4. The method of claim 3, wherein the step of,

responding to an initialization instruction, acquiring zero degree calibration points corresponding to the monitoring devices, and performing angle initialization calibration processing on the corresponding range indication frame according to the zero degree calibration points, wherein the method comprises the following steps:

acquiring an arc length center point corresponding to the range indication frame, connecting the arc length center point and the vertex corresponding to the range indication frame, and obtaining an angle indication line corresponding to the range indication frame, wherein the range indication frame is a sector indication frame;

and connecting the zero degree calibration point with the monitoring position point to obtain a zero degree calibration line, and controlling the range indication frame to perform angle initialization adjustment until the angle indication line and the zero degree calibration line are aligned, and stopping the indication angle adjustment of the range indication frame.

5. The method as recited in claim 4, further comprising:

acquiring the overlapping area between the adjacent range indication frames, and generating angle callback information when the overlapping area is larger than 0;

and responding to the angle callback information, acquiring a range indication frame with a larger monitoring acquisition angle from adjacent range indication frames as a callback indication frame, and callback the indication angle of the callback indication frame until the overlapping area is 0, and stopping callback the indication angle of the callback indication frame.

6. The method of claim 1, wherein the step of determining the position of the substrate comprises,

generating a hierarchical click sequence according to the hierarchical information of the monitoring target, filling the hierarchical click sequence into the menu display area for display, and comprising the following steps:

generating virtual hierarchy keys corresponding to the hierarchy information, and arranging the virtual hierarchy keys from small to large according to the hierarchy information to obtain a hierarchy click sequence;

and filling each virtual level key in the level click sequence into the menu display area according to a first direction for display.

7. The method of claim 6, wherein the step of providing the first layer comprises,

acquiring dynamic detection information of each monitoring video, acquiring a plurality of dynamic videos according to the dynamic detection information, and displaying each dynamic video in the dynamic display area, wherein the method comprises the following steps:

analyzing the dynamic detection information to obtain dynamic information and static information, and obtaining a monitoring video with the dynamic detection information being the dynamic information as a dynamic video;

counting the number of dynamic objects in each dynamic video, arranging each dynamic video according to the number of the dynamic objects to obtain a dynamic video sequence, and displaying each dynamic video in the dynamic display area according to the dynamic video sequence.

8. The method as recited in claim 7, further comprising:

receiving second click information of a user side on the dynamic video in the dynamic display area, and acquiring monitoring equipment corresponding to the dynamic video based on the second click information to serve as salient equipment, and a second monitoring display interface corresponding to the salient equipment to serve as salient monitoring display interface;

and acquiring video display slots corresponding to the protruding equipment in the protruding monitoring display interface as protruding display slots, changing the pixel values of the protruding display slots according to preset pixel values to obtain a third monitoring display interface, and displaying the third monitoring display interface based on a picture display area in the management interface.

9. A monitoring data processing system, comprising:

the position module is used for acquiring a plan view of each layer of monitoring area in the monitoring target, generating a corresponding first monitoring display interface according to the plan view, receiving point position configuration information of a user, and generating monitoring position points corresponding to each monitoring device in the first monitoring display interface;

the range module is used for retrieving the video display slot position corresponding to the monitoring position point, retrieving a range indication frame according to the equipment information of the monitoring equipment, positioning the video display slot position based on the monitoring position point and the central point of the video display slot position, and positioning the range indication frame based on the monitoring position point and the vertex of the range indication frame;

the monitoring module is used for responding to the initialization instruction, carrying out angle initialization calibration processing on each range indication frame, receiving angle configuration information input by the management end to the corresponding monitoring position point, and adjusting the indication angle of the range indication frame according to the angle configuration information to obtain a second monitoring display interface;

the display module is used for generating a management interface corresponding to the monitoring target, displaying the second monitoring display interface of the corresponding level according to a picture display area of the management interface, acquiring dynamic detection information of each monitoring video, and calling the corresponding monitoring video to display in a dynamic display area of the management interface according to the dynamic detection information;

generating a management interface corresponding to the monitoring target, displaying the second monitoring display interface of the corresponding level according to a picture display area of the management interface, obtaining dynamic detection information of each monitoring video, and calling the corresponding monitoring video to display in a dynamic display area of the management interface according to the dynamic detection information, wherein the method comprises the following steps:

receiving the dividing information of the management interface by the management terminal to obtain a menu display area, a picture display area and a dynamic display area;

generating a hierarchical click sequence according to the hierarchical information of the monitoring target, and filling the hierarchical click sequence into the menu display area for display;

receiving first click information of the user side on the hierarchical click sequence, and calling the second monitoring display interface of the corresponding hierarchy based on the first click information to fill the second monitoring display interface into the picture display area for display;

and acquiring dynamic detection information of each monitoring video, acquiring a plurality of dynamic videos according to the dynamic detection information, and displaying each dynamic video in the dynamic display area.