CN116112645B - Multi-image transmission method and device for reservoir environment - Google Patents

Abstract

The application relates to the technical field of data transmission, and provides a multi-image transmission method and device for a reservoir environment. The method comprises the following steps: determining that at least one abnormal monitoring image exists in the monitoring images of each area of the reservoir, and determining a target network resource for transmitting each abnormal monitoring image according to the network resource corresponding to each conventional monitoring image and the network resource corresponding to each abnormal monitoring image; according to the target network resource, each abnormal monitoring image is synchronized to a management system in real time for display; the abnormal monitoring images are the monitoring images which are determined to be abnormal in each monitoring image; the normal monitoring image is a monitoring image other than the abnormal monitoring image in each monitoring image. The multi-image transmission method of the reservoir environment provided by the embodiment of the application can improve the timeliness of synchronizing the abnormal monitoring image to the management system.

Description

Multi-image transmission method and device for reservoir environment

Technical Field

The application relates to the technical field of data transmission, in particular to a multi-image transmission method and device for a reservoir environment.

Background

In order to ensure the safety of the reservoir, monitoring equipment is usually required to be arranged in each area of the reservoir for monitoring. The monitoring images collected by the monitoring devices are uniformly transmitted to a central control room of the reservoir, for example, the monitoring table is used for split-screen display so as to display all the monitoring images on a display screen of the monitoring table. Meanwhile, the monitoring images received by the monitoring platform are required to be synchronized to a management system for monitoring all reservoirs in a certain area, so that the monitoring images uploaded by the monitoring platform are synchronously displayed on each display screen of the management system, and the management system is convenient to provide relevant processing instructions for workers of the monitoring platform for abnormal monitoring images.

However, since there are many monitoring devices deployed in reservoirs, and the management system needs to manage all reservoirs in a region, more than one monitoring station needs to be accessed, which results in that the management system needs to receive a large number of monitoring images. If all the monitoring images of the monitoring stations are synchronized to the management system in real time, transmission delay of part of abnormal monitoring images can be caused, and timeliness of abnormal processing instructions of the management system is affected.

Disclosure of Invention

The present application is directed to solving at least one of the technical problems existing in the related art. Therefore, the application provides a multi-image transmission method of a reservoir environment, which can improve the timeliness of synchronizing an abnormal monitoring image to a management system.

The application also provides a multi-image transmission device of the reservoir environment.

The application further provides electronic equipment.

The application also proposes a computer readable storage medium.

According to an embodiment of the first aspect of the present application, a multi-image transmission method for a reservoir environment includes:

determining that at least one abnormal monitoring image exists in the monitoring images of each area of the reservoir, and determining a target network resource for transmitting each abnormal monitoring image according to the network resource corresponding to each conventional monitoring image and the network resource corresponding to each abnormal monitoring image;

according to the target network resources, synchronizing each abnormal monitoring image to a management system in real time for display;

the abnormal monitoring images are monitoring images which are determined to be abnormal in the monitoring images;

the regular monitoring images are monitoring images except the abnormal monitoring image in each monitoring image.

When at least one abnormal monitoring image exists in the monitoring images of all areas of the reservoir, network resources for transmitting the conventional monitoring images are distributed to the abnormal monitoring images which need to be synchronized to the management system, so that the abnormal monitoring images are synchronized to the management system in real time by utilizing target network resources which are formed by the network resources originally used for transmitting the conventional monitoring images and the network resources originally used for transmitting the abnormal monitoring images, the timeliness of synchronizing the abnormal monitoring images to the management system is improved, the inquiry of the management system to the abnormal monitoring images can be responded more quickly, and the safety of the reservoir is improved.

According to one embodiment of the present application, determining that at least one abnormal monitoring image exists in the monitoring images of each area of the reservoir includes:

acquiring the definition of the monitoring image of any region;

and determining that the definition of the monitoring image is smaller than a preset value, and determining the monitoring image as an abnormal monitoring image.

According to one embodiment of the present application, acquiring the sharpness of a monitored image of any area includes:

gridding the monitoring image to obtain each grid image;

obtaining a target grid image with average contrast of pixel points smaller than preset contrast from each grid image;

determining a gray index of any target pixel point in the target grid image according to the gray difference between the target pixel point and each adjacent pixel point;

determining the gray index with the largest value in the gray indexes of the target pixel points as the definition of the monitoring image;

wherein the target pixel point is any pixel point in the target grid image;

the adjacent pixel points are the pixel points adjacent to the target pixel points in the target grid image.

According to one embodiment of the present application, determining that at least one abnormal monitoring image exists in the monitoring images of each area of the reservoir includes:

acquiring the monitoring image of any region;

and determining that an alarm image used for indicating abnormality exists in the monitoring image, and determining the monitoring image as an abnormal monitoring image.

According to one embodiment of the present application, after determining that at least one abnormal monitoring image exists in the monitoring images of each area of the reservoir, the method further includes:

and suspending uploading each conventional monitoring image until abnormality of each abnormal monitoring image is cleared.

According to one embodiment of the present application, further comprising:

determining an area selection instruction which is received from the management system and used for the abnormal monitoring image, and intercepting a corresponding display area from the abnormal monitoring image according to the area selection instruction and synchronizing the display area to the management system for display.

According to one embodiment of the present application, further comprising:

determining that the abnormal monitoring images do not exist in the monitoring images of all areas of the reservoir, and periodically and asynchronously uploading all the monitoring images to the management system according to network resources corresponding to all the monitoring images.

According to a second aspect of the present application, a multi-image transmission device for a reservoir environment includes:

the resource determining module is used for determining that at least one abnormal monitoring image exists in the monitoring images of all areas of the reservoir, and determining target network resources for transmitting all the abnormal monitoring images according to network resources corresponding to all the conventional monitoring images and network resources corresponding to all the abnormal monitoring images;

the image transmission module is used for synchronizing each abnormal monitoring image to the management system in real time for display according to the target network resource;

the abnormal monitoring images are monitoring images which are determined to be abnormal in the monitoring images;

the regular monitoring images are monitoring images except the abnormal monitoring image in each monitoring image.

An electronic device according to an embodiment of the third aspect of the present application includes a processor and a memory storing a computer program, where the processor implements the multi-image transmission method of the reservoir environment according to any of the above embodiments when executing the computer program.

A computer readable storage medium according to an embodiment of a fourth aspect of the present application has stored thereon a computer program which, when executed by a processor, implements the method for multi-image transmission of a reservoir environment according to any of the above embodiments.

The above technical solutions in the embodiments of the present application have at least one of the following technical effects:

when at least one abnormal monitoring image exists in the monitoring images of all areas of the reservoir, network resources for transmitting the conventional monitoring images are distributed to the abnormal monitoring images which need to be synchronized to the management system, so that the abnormal monitoring images are synchronized to the management system in real time by utilizing target network resources which are formed by the network resources originally used for transmitting the conventional monitoring images and the network resources originally used for transmitting the abnormal monitoring images, the timeliness of synchronizing the abnormal monitoring images to the management system is improved, the inquiry of the management system to the abnormal monitoring images can be responded more quickly, and the safety of the reservoir is improved.

Drawings

In order to more clearly illustrate the application or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the application, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a first flow chart of a method for multi-image transmission in a reservoir environment according to some embodiments of the present application;

FIG. 2 is a schematic diagram of a display screen of a monitor and management system according to some embodiments of the present application;

FIG. 3 is a second flowchart of a method of multi-image transmission for a reservoir environment according to some embodiments of the present application;

FIG. 4 is a third flow chart of a method of multi-image transmission for a reservoir environment according to some embodiments of the present application;

FIG. 5 is a fourth flowchart of a method of multi-image transmission in a reservoir environment according to some embodiments of the present application;

FIG. 6 is a flow chart illustrating interaction between a monitoring station and a management system according to some embodiments of the present application;

FIG. 7 is a flow chart illustrating yet another interaction between a monitoring station and a management system in some embodiments of the present application;

FIG. 8 is a schematic structural diagram of a multi-image transmission device for a reservoir environment according to an embodiment of the present application;

fig. 9 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, the technical solutions 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 some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The method and apparatus for multi-image transmission in a reservoir environment according to the embodiments of the present application will be described and illustrated in detail by means of several specific embodiments.

In one embodiment, a method for multi-image transmission of a reservoir environment is provided, and the method is applied to a monitoring station for multi-image transmission of the reservoir environment. The monitoring station comprises a display screen and terminal equipment, such as a computer or a server. The server can be an independent server or a server cluster formed by a plurality of servers, and can also be a cloud server for providing basic cloud computing services such as cloud service, cloud message database, cloud computing, cloud function, cloud storage, network service, cloud communication, middleware service, domain name service, security service, CDN, large message data, artificial intelligent sampling point equipment and the like.

As shown in fig. 1, the multi-image transmission method for a reservoir environment provided in this embodiment includes:

step 101, determining that at least one abnormal monitoring image exists in the monitoring images of all areas of the reservoir, and determining target network resources for transmitting all the abnormal monitoring images according to network resources corresponding to all the conventional monitoring images and network resources corresponding to all the abnormal monitoring images;

102, synchronizing each abnormal monitoring image to a management system in real time for display according to the target network resource;

the abnormal monitoring images are monitoring images which are determined to be abnormal in the monitoring images;

the regular monitoring images are monitoring images except the abnormal monitoring image in each monitoring image.

In some embodiments, the reservoir may be pre-divided into multiple areas, such as a viewing area for guests to view, a patrol area where only staff is allowed to enter, where the auxiliary equipment such as distribution boxes, control equipment, monitoring equipment, etc. is deployed, and a water surface area, etc. One type of region may be one or more, such as where multiple viewing regions may be present. For each area, the monitoring platform can acquire the monitoring images of each area through the image pickup devices distributed in each area of the reservoir, and the acquired monitoring images of each area are displayed on the display screen of the monitoring platform in a split screen mode. Wherein the display screen of the monitoring station is composed of a plurality of screens, as shown in fig. 2. A screen is used for displaying a monitoring image of an area correspondingly.

After each monitoring image is obtained, the monitoring platform can detect each monitoring image and judge whether an abnormal monitoring image exists in each monitoring image. The abnormal monitoring image may be determined to be an abnormal monitoring image when a certain monitoring image is matched with any one of the abnormal rules in the pre-specified abnormal rule table. The abnormal rules in the abnormal rule table may include the occurrence of flashing of an alarm lamp in an image, detection of a non-worker in a patrol area, detection of a human body in a water surface area, occurrence of a float in the water surface area, and the like. After the monitoring image is obtained, the monitoring image can be subjected to image recognition so as to judge whether the monitoring image has any abnormal rule. If so, the monitored image may be determined to be an abnormal monitored image.

After determining that at least one abnormal monitoring image exists in each monitoring image, network resources of conventional monitoring images originally used for transmitting each monitoring image are distributed to the abnormal monitoring images, so that network resources of conventional monitoring images used for transmitting each monitoring image are added to form target network resources on the basis of the network resources originally used for transmitting each abnormal monitoring image, and each abnormal monitoring image is synchronized to a display screen of a management system to be displayed by using the target network resources. If the network bandwidth originally used for transmitting the regular monitoring images is allocated to each abnormal monitoring image, the network bandwidth originally used for transmitting the regular monitoring images and the network bandwidth originally used for transmitting the abnormal monitoring images are utilized to synchronize each abnormal monitoring image to a display screen of the management system for displaying. Wherein the display screen of the management system may be composed of a plurality of screens, as shown in fig. 2. A screen is used for correspondingly displaying an abnormal monitoring image.

When at least one abnormal monitoring image exists in the monitoring images of all areas of the reservoir, network resources for transmitting the conventional monitoring images are distributed to the abnormal monitoring images which need to be synchronized to the management system, so that the abnormal monitoring images are synchronized to the management system in real time by utilizing target network resources which are formed by the network resources originally used for transmitting the conventional monitoring images and the network resources originally used for transmitting the abnormal monitoring images, the timeliness of synchronizing the abnormal monitoring images to the management system is improved, the inquiry of the management system to the abnormal monitoring images can be responded more quickly, and the safety of the reservoir is improved.

In some embodiments, as shown in fig. 3, determining that at least one anomaly monitoring image exists in the monitoring images of each region of the reservoir includes:

step 201, obtaining the definition of the monitoring image of any area;

step 202, determining that the definition of the monitoring image is smaller than a preset value, and determining the monitoring image as an abnormal monitoring image.

As a possible implementation manner, whether a certain monitoring image is abnormal or not may be determined by detecting whether the monitoring image is clear or not. If the pixel value of the monitoring image is greater than or equal to the preset value, determining that the definition of the monitoring image meets the requirement, and determining the monitoring image as a conventional monitoring image. Otherwise, the monitoring image may be determined as an abnormal monitoring image. The preset value can be set according to actual conditions.

Whether the monitoring image is an abnormal monitoring image or not is judged by detecting the definition of the monitoring image, so that the fuzzy monitoring image can be uploaded to a management system in time, and the safety of the reservoir is improved.

In order to make the result of determining whether the monitored image is an abnormal image by using the sharpness more accurate, in some embodiments, as shown in fig. 4, obtaining the sharpness of the monitored image of any area includes:

step 301, gridding the monitoring image to obtain each grid image;

step 302, obtaining a target grid image with average contrast of pixel points smaller than a preset contrast from each grid image;

step 303, determining a gray index of any target pixel point in the target grid image according to the gray difference between the target pixel point and each adjacent pixel point;

step 304, determining the gray index with the largest value in the gray indexes of the target pixel points as the definition of the monitoring image;

wherein the target pixel point is any pixel point in the target grid image;

the adjacent pixel points are the pixel points adjacent to the target pixel points in the target grid image.

As a possible implementation manner, the definition of the monitor image may be determined by first gridding the monitor image to obtain each grid image. And then according to the contrast of each pixel point in the grid image, acquiring the grid image with the contrast smaller than the preset contrast from each grid image as a target grid image to perform image definition detection. The preset contrast may be the contrast of the grid image with the next lower contrast, so that the obtained target grid image is the grid image with the lowest contrast.

The image definition detection includes extracting any pixel point from the target grid image as a target pixel point, and calculating a difference between the gray value of the target pixel point and the gray value of any adjacent pixel point, wherein the difference is the gray difference between the two. And after the gray level differences of the target pixel point and all the adjacent pixel points are obtained, summing the gray level differences to obtain the gray level index of the target pixel point. In this way, the gray scale index of each target pixel point, namely each pixel point of the target grid image, is determined, the gray scale index with the largest value is extracted from the gray scale indexes of each pixel point of the target grid image, the gray scale index is determined as the definition of the monitoring image, and the definition is compared with a preset value. If the definition is larger than the preset value, the monitoring image is judged to be clear, and the monitoring image is a conventional monitoring image. Otherwise, judging the monitoring image as an abnormal monitoring image.

The target grid image with the average contrast of the pixel points smaller than the preset contrast is obtained from each grid image of the monitoring image, so that the gray index with the largest numerical value is determined to be the definition of the monitoring image according to the gray index of each pixel point in the target grid image, the definition of the obtained monitoring image is the definition of a fuzzy part in the monitoring image, the obtained definition is more accurate, and the accuracy of a result of judging whether the monitoring image is an abnormal image or not by utilizing the definition is further improved.

In some embodiments, as shown in fig. 5, determining that at least one anomaly monitoring image exists in the monitoring images of each region of the reservoir includes:

step 401, acquiring the monitoring image of any area;

step 402, determining that an alarm image for indicating abnormality exists in the monitoring image, and determining the monitoring image as an abnormal monitoring image.

In addition to determining whether the monitored image is abnormal by detecting the definition of the monitored image, it may also be to detect whether an alarm image appears in the area monitored by a certain monitored image. The alarm image may be a preset image, such as a flashing alarm lamp or a water level exceeding a warning water level. The monitoring image is an area where the matching equipment such as the distribution box is deployed, and when the alarm lamp which indicates that the matching equipment is abnormal in the monitoring image flashes, the monitoring image is judged to be abnormal. Or the monitoring image monitors the reservoir water level, and when the alarm lamp which indicates that the reservoir water level is abnormal flashes in the monitoring image or the reservoir water level exceeds a warning line, the monitoring image is judged to be abnormal.

Whether the monitoring image is an abnormal monitoring image or not is judged by detecting the existence of an alarm image used for indicating abnormality in the monitoring image, so that the monitoring image with an alarm can be uploaded to a management system in time, and the safety of a reservoir is improved.

After determining that at least one abnormal monitoring image exists in the monitoring images of each area of the reservoir, uploading each conventional monitoring image can be suspended until the abnormality of each abnormal monitoring image is cleared in order to further improve the transmission efficiency of the abnormal monitoring image. While uploading the regular monitoring images is suspended, the regular monitoring images can be stored in a local database of the monitoring station.

In addition, after the abnormal monitoring images in the monitoring images of all areas of the reservoir are determined, the abnormal monitoring images can be synchronized to the management system in real time for display through the target network resources. The management system can display the abnormal monitoring image and receive an area selection instruction of the abnormal monitoring image, which is executed by an administrator on a screen of the displayed abnormal monitoring image, so that the partial area of the abnormal monitoring image is amplified, the manager can conveniently check the partial area, and the amplified area can be synchronized to the monitoring platform, so that the monitoring platform can receive relevant instructions of the management system in time.

As a possible embodiment, as shown in fig. 6, it includes:

step 501, the monitoring station synchronizes the abnormal monitoring image to the management system in real time for display;

step 502, the management system receives the region selection instruction, and intercepts the corresponding display region from the abnormal monitoring image according to the region selection instruction for display;

in step 503, the management system synchronizes the display area to the monitor console to display the display area on the monitor console synchronously.

The area selection instruction may be to detect all clicking operations of the administrator on the abnormal monitoring image in a preset period, for example, 3 seconds, or detect a sliding path of the administrator on the abnormal monitoring image in the preset period, for example, 3 seconds, and if the area selection instruction is all clicking operations of the abnormal monitoring image in the preset period, an area surrounded by points of all clicking operations is a display area. If the region selection instruction is a sliding path on the abnormal monitoring image in a preset period, the region surrounded by the sliding path is a display region.

After the display area is determined, since all source files on the monitor table, such as the data stream of the anomaly monitor image and the controls for operating the anomaly monitor image, are synchronized to the management system when the anomaly monitor image of the monitor table is synchronized to the management system, the anomaly monitor image is transferred to the management system while the management system to which the anomaly monitor image is responsive is operated. If the monitoring platform synchronizes the abnormal monitoring image of the screen 1 to the screen 1 of the management system in real time, and simultaneously, controls for controlling the abnormal monitoring image of the screen 1, such as controls for selecting image areas, are synchronized to the management system, so that when an administrator performs area selection operation on the abnormal monitoring image on the screen 1 of the management system, the selected display area can be displayed on the screen 1 of the management system in a full screen mode. After the management system performs full-screen display on the display area, the management system can synchronize the display area to the monitoring platform so as to synchronously display the display area on the monitoring platform.

However, since this method needs to synchronize all source files on the monitoring station related to the abnormal monitoring image, such as the data flow of the abnormal monitoring image and the control for operating the abnormal monitoring image, to the management system, the amount of data received by the management system is large, and the image transmission needs to be performed back and forth between the monitoring station and the management system, which occupies more resources. Thus, to reduce the occupation of resources, in some embodiments, further comprises:

determining an area selection instruction which is received from the management system and used for the abnormal monitoring image, and intercepting a corresponding display area from the abnormal monitoring image according to the area selection instruction and synchronizing the display area to the management system for display.

As a possible embodiment, as shown in fig. 7, it includes:

step 601, the monitoring platform synchronizes the abnormal monitoring image to the management system in real time for display;

step 602, the management system receives the region selection instruction and sends the region selection instruction to the monitoring station;

and 603, the monitoring platform intercepts the corresponding display area from the abnormal monitoring image according to the area selection instruction and synchronizes the display area to the management system for display.

In some embodiments, the management system sends the region selection instruction to the monitoring station when receiving the region selection instruction of the administrator on the abnormal monitoring image. When the monitoring station receives the region selection instruction executed by the management system on the abnormal monitoring image, the display region corresponding to the region selection instruction can be intercepted on the abnormal monitoring image of the screen 1, other regions of the abnormal monitoring image are ignored, and the display region is displayed on the screen 1 in an enlarged mode. The display area is displayed on the screen 1 of the monitoring platform, so that the monitoring platform only needs to synchronize the display area on the screen 1 to the management system, and no abnormal monitoring image corresponding to the display area is required to be uploaded, so that the monitoring platform and the management system display the selected display area. Therefore, the management system only needs to synchronize the images displayed by the monitoring platform by utilizing the region selection instruction to execute corresponding operation on the abnormal monitoring images of the monitoring platform, so that the resource and the memory consumption of the management system are small, the management system only needs to continue to synchronize the images to the management system by the monitoring platform, the management system is not required to send the images to the monitoring platform to perform image synchronization, and the synchronization mode is the same as that before the region selection instruction is not executed, therefore, the transmitted data volume cannot be changed greatly, and the network resource is saved.

In some embodiments, further comprising:

determining that the abnormal monitoring images do not exist in the monitoring images of all areas of the reservoir, and periodically and asynchronously uploading all the monitoring images to the management system according to network resources corresponding to all the monitoring images.

As a possible implementation manner, if all the monitoring images received by the monitoring station are normal, each monitoring image may be stored, and then the monitoring station periodically and asynchronously transmits the monitoring images to the management center, for example, every 10 minutes, so as to save network resources.

The multi-image transmission device of the reservoir environment provided by the application is described below, and the multi-image transmission device of the reservoir environment described below and the multi-image transmission method of the reservoir environment described above can be correspondingly referred to each other.

In one embodiment, as shown in fig. 8, there is provided a multi-image transmission apparatus for a reservoir environment, comprising:

the resource determining module 210 is configured to determine that at least one abnormal monitoring image exists in the monitoring images of each area of the reservoir, and determine a target network resource for transmitting each abnormal monitoring image according to the network resource corresponding to each regular monitoring image and the network resource corresponding to each abnormal monitoring image;

the image transmission module 220 is configured to synchronize each abnormal monitoring image to a management system in real time for display according to the target network resource;

the abnormal monitoring images are monitoring images which are determined to be abnormal in the monitoring images;

the regular monitoring images are monitoring images except the abnormal monitoring image in each monitoring image.

When at least one abnormal monitoring image exists in the monitoring images of all areas of the reservoir, network resources for transmitting the conventional monitoring images are distributed to the abnormal monitoring images which need to be synchronized to the management system, so that the abnormal monitoring images are synchronized to the management system in real time by utilizing target network resources which are formed by the network resources originally used for transmitting the conventional monitoring images and the network resources originally used for transmitting the abnormal monitoring images, the timeliness of synchronizing the abnormal monitoring images to the management system is improved, the inquiry of the management system to the abnormal monitoring images can be responded more quickly, and the safety of the reservoir is improved.

In some embodiments, the resource determination module 210 is specifically configured to:

acquiring the definition of the monitoring image of any region;

and determining that the definition of the monitoring image is smaller than a preset value, and determining the monitoring image as an abnormal monitoring image.

In some embodiments, the resource determination module 210 is specifically configured to:

gridding the monitoring image to obtain each grid image;

obtaining a target grid image with average contrast of pixel points smaller than preset contrast from each grid image;

determining a gray index of any target pixel point in the target grid image according to the gray difference between the target pixel point and each adjacent pixel point;

determining the gray index with the largest value in the gray indexes of the target pixel points as the definition of the monitoring image;

wherein the target pixel point is any pixel point in the target grid image;

the adjacent pixel points are the pixel points adjacent to the target pixel points in the target grid image.

In some embodiments, the resource determination module 210 is specifically configured to:

acquiring the monitoring image of any region;

and determining that an alarm image used for indicating abnormality exists in the monitoring image, and determining the monitoring image as an abnormal monitoring image.

In some embodiments, the image transmission module 220 is further configured to:

and suspending uploading each conventional monitoring image until abnormality of each abnormal monitoring image is cleared.

In some embodiments, the image transmission module 220 is further configured to:

determining an area selection instruction which is received from the management system and used for the abnormal monitoring image, and intercepting a corresponding display area from the abnormal monitoring image according to the area selection instruction and synchronizing the display area to the management system for display.

In some embodiments, the image transmission module 220 is further configured to:

determining that the abnormal monitoring images do not exist in the monitoring images of all areas of the reservoir, and periodically and asynchronously uploading all the monitoring images to the management system according to network resources corresponding to all the monitoring images.

Fig. 9 illustrates a physical schematic diagram of an electronic device, as shown in fig. 9, which may include: processor 810, communication interface (Communication Interface) 820, memory 830, and communication bus 840, wherein processor 810, communication interface 820, memory 830 accomplish communication with each other through communication bus 840. Processor 810 may invoke computer programs in memory 830 to perform a multi-image transmission method for a reservoir environment, including, for example:

determining that at least one abnormal monitoring image exists in the monitoring images of each area of the reservoir, and determining a target network resource for transmitting each abnormal monitoring image according to the network resource corresponding to each conventional monitoring image and the network resource corresponding to each abnormal monitoring image;

according to the target network resources, synchronizing each abnormal monitoring image to a management system in real time for display;

the abnormal monitoring images are monitoring images which are determined to be abnormal in the monitoring images;

the regular monitoring images are monitoring images except the abnormal monitoring image in each monitoring image.

Further, the logic instructions in the memory 830 described above may be implemented in the form of software functional units and may be stored in a computer-readable storage medium when sold or used as a stand-alone product. Based on this understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution in the form of a software product stored in a storage medium, comprising several instructions for causing a computer device (which may be a personal computer, a server, a network device, etc.) to perform all or part of the steps of the method of the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

In another aspect, an embodiment of the present application further provides a storage medium, where the storage medium includes a computer program, where the computer program may be stored on a non-transitory computer readable storage medium, and when the computer program is executed by a processor, the computer is capable of executing a multi-image transmission method of a reservoir environment provided in the foregoing embodiments, for example, including:

determining that at least one abnormal monitoring image exists in the monitoring images of each area of the reservoir, and determining a target network resource for transmitting each abnormal monitoring image according to the network resource corresponding to each conventional monitoring image and the network resource corresponding to each abnormal monitoring image;

according to the target network resources, synchronizing each abnormal monitoring image to a management system in real time for display;

the abnormal monitoring images are monitoring images which are determined to be abnormal in the monitoring images;

the regular monitoring images are monitoring images except the abnormal monitoring image in each monitoring image.

The apparatus embodiments described above are merely illustrative, wherein elements illustrated as separate elements may or may not be physically separate, and elements shown as elements may or may not be physical elements, may be located in one place, or may be distributed over a plurality of network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present application without undue burden.

From the above description of the embodiments, it will be apparent to those skilled in the art that the embodiments may be implemented by means of software plus necessary general hardware platforms, or of course may be implemented by means of hardware. Based on this understanding, the foregoing technical solution may be embodied essentially or in a part contributing to the prior art in the form of a software product, which may be stored in a computer readable storage medium, such as ROM/RAM, a magnetic disk, an optical disk, etc., including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method described in the respective embodiments or some parts of the embodiments.

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

Claims (7)

1. A method of multi-image transmission in a reservoir environment, comprising:

determining that at least one abnormal monitoring image exists in the monitoring images of each area of the reservoir, and determining a target network resource for transmitting each abnormal monitoring image according to the network resource corresponding to each conventional monitoring image and the network resource corresponding to each abnormal monitoring image;

according to the target network resources, synchronizing each abnormal monitoring image to a management system in real time for display;

determining an area selection instruction which receives the abnormal monitoring image from the management system, and intercepting a corresponding display area from the abnormal monitoring image according to the area selection instruction to be synchronized to the management system for display;

the abnormal monitoring images are monitoring images which are determined to be abnormal in the monitoring images;

the regular monitoring images are monitoring images except the abnormal monitoring image in each monitoring image;

determining that at least one abnormal monitoring image exists in the monitoring images of all areas of the reservoir comprises the following steps:

gridding the monitoring image to obtain each grid image;

obtaining a target grid image with average contrast of pixel points smaller than preset contrast from each grid image;

determining a gray index of any one of the target pixel points in the target grid image according to the gray difference between the target pixel point and each adjacent pixel point;

determining the gray index with the largest value in the gray indexes of the target pixel points as the definition of the monitoring image;

determining that the definition of the monitoring image is smaller than a preset value, and determining the monitoring image as an abnormal monitoring image;

wherein the target pixel point is any pixel point in the target grid image;

the adjacent pixel points are the pixel points adjacent to the target pixel points in the target grid image.

2. The method of multiple image transmission of a reservoir environment of claim 1, wherein determining that at least one anomaly monitoring image exists in the monitoring images of each region of the reservoir comprises:

acquiring the monitoring image of any region;

and determining that an alarm image used for indicating abnormality exists in the monitoring image, and determining the monitoring image as an abnormal monitoring image.

3. The method of multiple image transmission of a reservoir environment of claim 1, further comprising, after determining that at least one anomaly monitoring image exists in the monitoring images of each region of the reservoir:

and suspending uploading each conventional monitoring image until abnormality of each abnormal monitoring image is cleared.

4. The method for multiple image transmission of a reservoir environment of claim 1, further comprising:

determining that the abnormal monitoring images do not exist in the monitoring images of all areas of the reservoir, and periodically and asynchronously uploading all the monitoring images to the management system according to network resources corresponding to all the monitoring images.

5. A multiple image transmission device for a reservoir environment, comprising:

the resource determining module is used for determining that at least one abnormal monitoring image exists in the monitoring images of all areas of the reservoir, and determining target network resources for transmitting all the abnormal monitoring images according to network resources corresponding to all the conventional monitoring images and network resources corresponding to all the abnormal monitoring images;

the image transmission module is used for synchronizing each abnormal monitoring image to the management system in real time for display according to the target network resource;

the image transmission module is also used for:

determining an area selection instruction which receives the abnormal monitoring image from the management system, and intercepting a corresponding display area from the abnormal monitoring image according to the area selection instruction to be synchronized to the management system for display;

the abnormal monitoring images are monitoring images which are determined to be abnormal in the monitoring images;

the regular monitoring images are monitoring images except the abnormal monitoring image in each monitoring image;

the resource determining module is specifically configured to:

gridding the monitoring image to obtain each grid image;

obtaining a target grid image with average contrast of pixel points smaller than preset contrast from each grid image;

determining a gray index of any one of the target pixel points in the target grid image according to the gray difference between the target pixel point and each adjacent pixel point;

determining the gray index with the largest value in the gray indexes of the target pixel points as the definition of the monitoring image;

determining that the definition of the monitoring image is smaller than a preset value, and determining the monitoring image as an abnormal monitoring image;

wherein the target pixel point is any pixel point in the target grid image;

the adjacent pixel points are the pixel points adjacent to the target pixel points in the target grid image.

6. An electronic device comprising a processor and a memory storing a computer program, wherein the processor, when executing the computer program, implements the method of multi-image transmission of a reservoir environment according to any one of claims 1 to 4.

7. A computer readable storage medium having stored thereon a computer program, which when executed by a processor implements the method of multi-image transmission of a reservoir environment according to any one of claims 1 to 4.