阅读说明：本技术 图像处理设备、方法及图像监控和管理系统 (Image processing apparatus, image processing method, image monitoring and managing system ) 是由 朱小航 范志刚 卢涛 于 2020-05-29 设计创作，主要内容包括：本公开提供一种图像处理设备、方法及图像监控和管理系统,涉及图像处理领域,能够解决在接收到的图像数量较多,无法同时显示多个图像的问题。具体技术方案为：服务器,用于接收图像源设备中的多个图像,向管理装置发送各个图像对应的缩略图和图像编号；管理装置,用于显示各个图像的缩略图,接收管理员触发的分屏显示指令和在分屏显示装置中待显示的第一目标图像的图像编号,还用于向服务器发送请求指令,向分屏显示装置发送分屏显示指令,服务器,还用于向分屏显示装置发送第一目标图像；分屏显示装置,用于根据显示方式,按照显示位置信息显示第一目标图像。本发明由于将缩略图显示在单独的管理装置中,可以增加缩略图的显示区域范围。(The disclosure provides an image processing device and method and an image monitoring and management system, relates to the field of image processing, and can solve the problem that a plurality of images cannot be displayed simultaneously due to the fact that the number of received images is large. The specific technical scheme is as follows: the server is used for receiving a plurality of images in the image source equipment and sending thumbnails and image numbers corresponding to the images to the management device; the management device is used for displaying thumbnails of all images, receiving a split-screen display instruction triggered by an administrator and an image number of a first target image to be displayed in the split-screen display device, sending a request instruction to the server, sending the split-screen display instruction to the split-screen display device, and sending the first target image to the split-screen display device; and the split-screen display device is used for displaying the first target image according to the display mode and the display position information. The present invention can increase the display area range of the thumbnail because the thumbnail is displayed in a separate management device.)

1. An image processing apparatus, characterized in that the apparatus comprises: the system comprises a server, a management device and a split screen display device;

the server is used for receiving a plurality of images in the image source equipment and determining thumbnails and image numbers corresponding to the images;

the server is also used for sending the thumbnail and the image number corresponding to each image to the management device;

the management device is used for displaying the received thumbnail of each image;

the management device is also used for receiving a split-screen display instruction triggered by an administrator and an image number of a first target image to be displayed in the split-screen display device; the split-screen display instruction indicates a display mode and display position information of the first target image in the split-screen display device;

the management device is further configured to send a request instruction to the server, and send the split-screen display instruction to the split-screen display device, where the request instruction includes: an image number of the first target image;

the server is further used for acquiring the first target image according to the image number of the first target image and sending the first target image to the split-screen display device;

and the split-screen display device is used for displaying the first target image according to the display mode and the display position information.

2. The apparatus of claim 1, further comprising: a reverse control device;

the management device is also used for receiving a reverse control instruction triggered by an administrator and sending the reverse control instruction to the server; the reverse control instruction comprises: the image number of the second target image to be reversely controlled;

the server is further used for acquiring the second target image according to the image number of the second target image and sending the second target image to the reverse control device;

the reverse control device is also used for displaying the second target image;

and the reverse control device is further configured to receive reverse control information triggered by an administrator, and send the reverse control information to the image source device corresponding to the second target image.

3. The apparatus of claim 1,

the display mode comprises the following steps: the number of the windows divided on the screen of the split-screen display device and the window serial number corresponding to each window;

the display position information includes: the target window sequence number corresponding to each first target image;

the split-screen display device is further configured to display each first target image in each target window according to the target window number corresponding to each first target image.

4. The apparatus of claim 1, further comprising: a storage device;

the server is further used for sending each image to the storage device;

the storage device is used for storing the image.

5. The apparatus of claim 4, further comprising: a display device;

the display device is used for receiving an image viewing instruction triggered by an administrator and sending the image viewing instruction to the storage device; the image viewing instructions instruct to view the saved image;

the storage device is further used for sending the image to the display device;

the display device is used for displaying the image.

6. The apparatus of claim 4,

the server is further used for sending the acquisition time of each image to the storage device;

the storage device is also used for saving the image and the acquisition time of the image;

the storage device is also used for acquiring the storage time of each image according to the acquisition time of the image;

the storage device is also used for deleting the images with the storage time longer than the preset time.

7. An image monitoring and management system, the system comprising: the image acquisition equipment and the image processing equipment; the image processing apparatus includes: the system comprises a server, a management device and a split screen display device;

the image acquisition equipment is used for acquiring a plurality of images in image source equipment and sending the images to the server;

the server is used for receiving the plurality of images and determining thumbnails and image numbers corresponding to the images;

the server is also used for sending the thumbnail and the image number corresponding to each image to the management device;

the management device is used for displaying the received thumbnail of each image;

the management device is also used for receiving a split-screen display instruction triggered by an administrator and an image number of a first target image to be displayed in the split-screen display device; the split-screen display instruction indicates a display mode and display position information of the first target image in the split-screen display device;

the management device is further configured to send a request instruction to the server, and send the split-screen display instruction to the split-screen display device, where the request instruction includes: an image number of the first target image;

the server is further used for acquiring the first target image according to the image number of the first target image and sending the first target image to the split-screen display device;

and the split-screen display device is used for displaying the first target image according to the display mode and the display position information.

8. An image processing method applied to the image processing apparatus according to any one of claims 1 to 6, the method comprising:

receiving a plurality of images in an image source device;

acquiring a thumbnail and an image number corresponding to each image;

controlling the management device to output a thumbnail of each image;

receiving a split-screen display instruction triggered by an administrator through operating the management device and a number of a first target image to be displayed in the split-screen display device; the split-screen display instruction indicates a display mode and display position information of the first target image in the split-screen display device;

acquiring the first target image according to the number of the first target image;

and controlling the split screen display device to display the first target image according to the display mode and the display position information.

9. An image processing apparatus, characterized in that the apparatus comprises:

a first receiving module for receiving a plurality of images in an image source device;

the first acquisition module is used for acquiring the thumbnail and the image number corresponding to each image;

the first control module is used for controlling the management device to output thumbnails of the images;

the second receiving module is used for receiving a split-screen display instruction triggered by an administrator through operating the management device and a serial number of a first target image to be displayed in the split-screen display device; the split-screen display instruction indicates a display mode and display position information of the first target image in the split-screen display device;

the second acquisition module is used for acquiring the first target image according to the serial number of the first target image;

and the second control module is used for controlling the split-screen display device to display the first target image according to the display position information according to the display mode.

Technical Field

The present disclosure relates to the field of image processing, and in particular, to an image processing apparatus and method, and an image monitoring and managing system.

Background

Referring to fig. 1, an existing image monitoring and managing system may include an image capturing apparatus and a managing apparatus, as shown in fig. 1. The image capturing device may include a plurality of capturing modules S1, S2, S3, Sn, may be mounted on a PC for capturing images on the PC, and transmits the captured images to the management device. The left column of the management apparatus is an image thumbnail list, and if an administrator selects one image thumbnail from the image thumbnail list, the image may be displayed in an enlarged manner in the right reverse operation area, and then the administrator may perform a reverse operation on the image source apparatus of the image in the reverse operation area.

However, in a scene with a large number of image capturing devices, for example, the image capturing devices need to be installed at the entrances and exits of each floor of an important building, and the display range of the management device is limited, and in this case, images captured by the image capturing devices cannot be simultaneously displayed.

Disclosure of Invention

The embodiment of the disclosure provides an image processing device, an image processing method and an image monitoring and management system, which can solve the problems that a plurality of images cannot be displayed simultaneously due to a large number of received images. The technical scheme is as follows:

according to a first aspect of embodiments of the present disclosure, there is provided an image processing apparatus, the apparatus comprising: the system comprises a server, a management device and a split screen display device;

the server is used for receiving a plurality of images in the image source equipment and determining thumbnails and image numbers corresponding to the images;

the server is also used for sending the thumbnail and the image number corresponding to each image to the management device;

the management device is used for displaying the received thumbnail of each image;

the management device is also used for receiving a split-screen display instruction triggered by an administrator and an image number of a first target image to be displayed in the split-screen display device; the split-screen display instruction indicates a display mode and display position information of the first target image in the split-screen display device;

the management device is further configured to send a request instruction to the server, and send the split-screen display instruction to the split-screen display device, where the request instruction includes: an image number of the first target image;

the server is further used for acquiring the first target image according to the image number of the first target image and sending the first target image to the split-screen display device;

and the split-screen display device is used for displaying the first target image according to the display mode and the display position information.

An image processing apparatus in an embodiment of the present disclosure includes: the system comprises a server, a management device and a split screen display device; the server is used for receiving a plurality of images in the image source equipment, determining thumbnails and image numbers corresponding to the images, and sending the thumbnails and the image numbers corresponding to the images to the management device; the management device is used for displaying the received thumbnail of each image, receiving a split screen display instruction triggered by an administrator and an image number of a first target image to be displayed in the split screen display device, sending a request instruction to the server, and sending the split screen display instruction to the split screen display device, wherein the split screen display instruction indicates the display mode and the display position information of the first target image in the split screen display device; the request instruction comprises the following steps: an image number of the first target image; the server is also used for acquiring a first target image according to the image number of the first target image and sending the first target image to the split-screen display device; and the split-screen display device is used for displaying the first target image according to the display mode and the display position information. The management device for displaying the thumbnails and the split-screen display device for displaying the images are set to be two different display devices, so that the display area range of the thumbnails and the images can be increased, and the thumbnails of the images can be displayed simultaneously when the number of the received images is large.

In one embodiment, the apparatus further comprises: a reverse control device;

the management device is also used for receiving a reverse control instruction triggered by an administrator and sending the reverse control instruction to the server; the reverse control instruction comprises: the image number of the second target image to be reversely controlled;

the server is further used for acquiring the second target image according to the image number of the second target image and sending the second target image to the reverse control device;

the reverse control device is also used for displaying the second target image;

and the reverse control device is further configured to receive reverse control information triggered by an administrator, and send the reverse control information to the image source device corresponding to the second target image.

In one embodiment of the present invention,

the display mode comprises the following steps: the number of the windows divided on the screen of the split-screen display device and the window serial number corresponding to each window;

the display position information includes: the target window sequence number corresponding to each first target image;

the split-screen display device is further configured to display each first target image in each target window according to the target window number corresponding to each first target image.

In one embodiment, the apparatus further comprises: a storage device;

the server is further used for sending each image to the storage device;

the storage device is used for storing the image.

In one embodiment, the apparatus further comprises: a display device;

the display device is used for receiving an image viewing instruction triggered by an administrator and sending the image viewing instruction to the storage device; the image viewing instructions instruct to view the saved image;

the storage device is further used for sending the image to the display device;

the display device is used for displaying the image.

In one embodiment of the present invention,

the server is further used for sending the acquisition time of each image to the storage device;

the storage device is also used for saving the image and the acquisition time of the image;

the storage device is also used for acquiring the storage time of each image according to the acquisition time of the image;

the storage device is also used for deleting the images with the storage time longer than the preset time.

According to a second aspect of the embodiments of the present disclosure, there is provided a schematic structural diagram of an image monitoring and management system, the system including: the image acquisition equipment and the image processing equipment; the image processing apparatus includes: the system comprises a server, a management device and a split screen display device;

the image acquisition equipment is used for acquiring a plurality of images in image source equipment and sending the images to the server;

the server is used for receiving the plurality of images and determining thumbnails and image numbers corresponding to the images;

the server is also used for sending the thumbnail and the image number corresponding to each image to the management device;

the management device is used for displaying the received thumbnail of each image;

the management device is also used for receiving a split-screen display instruction triggered by an administrator and an image number of a first target image to be displayed in the split-screen display device; the split-screen display instruction indicates a display mode and display position information of the first target image in the split-screen display device;

the management device is further configured to send a request instruction to the server, and send the split-screen display instruction to the split-screen display device, where the request instruction includes: an image number of the first target image;

the server is further used for acquiring the first target image according to the image number of the first target image and sending the first target image to the split-screen display device;

and the split-screen display device is used for displaying the first target image according to the display mode and the display position information.

In one embodiment, the image processing apparatus further comprises: a reverse control device;

the management device is also used for receiving a reverse control instruction triggered by an administrator and sending the reverse control instruction to the server; the reverse control instruction comprises: the image number of the second target image to be reversely controlled;

the server is further used for acquiring the second target image according to the image number of the second target image and sending the second target image to the reverse control device;

the reverse control device is also used for displaying the second target image;

and the reverse control device is further configured to receive reverse control information triggered by an administrator, and send the reverse control information to the image source device corresponding to the second target image.

In one embodiment of the present invention,

the display mode comprises the following steps: the number of the windows divided on the screen of the split-screen display device and the window serial number corresponding to each window;

the display position information includes: the target window sequence number corresponding to each first target image;

the split-screen display device is further configured to display each first target image in each target window according to the target window number corresponding to each first target image.

In one embodiment, the image processing apparatus further comprises: a storage device;

the server is further used for sending each image to the storage device;

the storage device is used for storing the image.

In one embodiment, the image processing apparatus further comprises: a display device;

the display device is used for receiving an image viewing instruction triggered by an administrator and sending the image viewing instruction to the storage device; the image viewing instructions instruct to view the saved image;

the storage device is further used for sending the image to the display device;

the display device is used for displaying the image.

In one embodiment of the present invention,

the server is further used for sending the acquisition time of each image to the storage device;

the storage device is also used for saving the image and the acquisition time of the image;

the storage device is also used for acquiring the storage time of each image according to the acquisition time of the image;

the storage device is also used for deleting the images with the storage time longer than the preset time.

According to a third aspect of the embodiments of the present disclosure, there is provided an image processing method applied to the image processing apparatus according to any one of the above embodiments, the image processing method including the steps of:

a plurality of images in an image source device are received.

And acquiring the thumbnail and the image number corresponding to each image.

The control management apparatus outputs thumbnails of the respective images.

Receiving a split-screen display instruction triggered by an administrator through an operation management device and a number of a first target image to be displayed in the split-screen display device; the split-screen display instruction indicates a display mode and display position information of the first target image in the split-screen display device.

And acquiring the first target image according to the number of the first target image.

And controlling the split screen display device to display the first target image according to the display mode and the display position information.

In one embodiment, the method further comprises:

receiving a reverse control instruction triggered by an administrator through a management device; the reverse control instruction comprises: the image number of the second target image to be reversely controlled;

acquiring a second target image according to the image number of the second target image;

controlling the reverse control device to display a second target image;

and receiving reverse control information triggered by the administrator through the reverse control device, and sending the reverse control information to the image source equipment corresponding to the second target image.

In one embodiment of the present invention,

the display mode comprises the following steps: the method comprises the following steps of dividing the screen of the split-screen display device into the number of windows and the window serial number corresponding to each window;

the displaying the position information includes: the target window sequence number corresponding to each first target image;

the control split screen display device displays a first target image according to display position information according to a display mode, and comprises the following steps:

and controlling the split-screen display device to display each first target image in each target window according to the target window serial number corresponding to each first target image.

In one embodiment, the method further comprises:

and controlling the storage device to store the image.

In one embodiment, the method further comprises:

receiving an image viewing instruction triggered by a manager through a display device, wherein the image viewing instruction indicates that a stored image is viewed;

acquiring an image from a storage device;

and controlling the display device to display the image.

In one embodiment, the method further comprises:

controlling a storage device to store images and the acquisition time of the images;

controlling a storage device to obtain the storage time of each image according to the acquisition time of the image;

and controlling the storage device to delete the images with the storage time longer than the preset time.

According to a fourth aspect of the embodiments of the present disclosure, there is provided an image processing apparatus including:

a first receiving module for receiving a plurality of images in an image source device;

the first acquisition module is used for acquiring the thumbnail and the image number corresponding to each image;

the first control module is used for controlling the management device to output thumbnails of the images;

the second receiving module is used for receiving a split-screen display instruction triggered by an administrator through operating the management device and a serial number of a first target image to be displayed in the split-screen display device; the split-screen display instruction indicates a display mode and display position information of the first target image in the split-screen display device;

the second acquisition module is used for acquiring the first target image according to the serial number of the first target image;

and the second control module is used for controlling the split-screen display device to display the first target image according to the display position information according to the display mode.

In one embodiment, the apparatus further comprises:

the third receiving module is used for receiving a reverse control instruction triggered by the administrator through the management device; the reverse control instruction comprises: the image number of the second target image to be reversely controlled;

the third acquisition module is used for acquiring a second target image according to the image number of the second target image;

the third control module is used for controlling the reverse control device to display the second target image;

and the fourth receiving module is used for receiving reverse control information triggered by the administrator through the reverse control device and sending the reverse control information to the image source equipment corresponding to the second target image.

In one embodiment of the present invention,

the display mode comprises the following steps: the method comprises the following steps of dividing the screen of the split-screen display device into the number of windows and the window serial number corresponding to each window;

the displaying the position information includes: the target window sequence number corresponding to each first target image;

the second control module is further configured to:

and controlling the split-screen display device to display each first target image in each target window according to the target window serial number corresponding to each first target image.

In one embodiment, the above apparatus further comprises:

and the fourth control module is used for controlling the storage device to store the image.

In one embodiment, the above apparatus further comprises:

the fifth receiving module is used for receiving an image viewing instruction triggered by the administrator through the display device, and the image viewing instruction indicates that the stored image is viewed;

the fifth acquisition module is used for acquiring the image from the storage device;

and the fifth control module is used for controlling the display device to display the image.

In one embodiment, the above apparatus further comprises:

the sixth control module is used for controlling the storage device to store the images and the acquisition time of the images;

the seventh control module is used for controlling the storage device to acquire the storage time of each image according to the acquisition time of the image;

and the eighth control module is used for controlling the storage device to delete the images with the storage time longer than the preset time.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a schematic structural diagram of an image monitoring and management system in the prior art provided by an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of an image processing apparatus provided in an embodiment of the present disclosure;

FIG. 3 is a schematic diagram of a display mode provided by an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of an image processing apparatus provided in an embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of an image processing apparatus provided in an embodiment of the present disclosure;

fig. 6 is a schematic structural diagram of an image processing apparatus provided in an embodiment of the present disclosure;

fig. 7 is a flowchart of an image processing method provided by an embodiment of the present disclosure;

fig. 8 is a schematic structural diagram of an image processing apparatus according to an embodiment of the present disclosure.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

An embodiment of the present disclosure provides an image processing apparatus, as shown in fig. 2, including: a server 11, a management device 12 and a split screen display device 13;

and the server 11 is used for receiving a plurality of images in the image source device and determining thumbnails and image numbers corresponding to the images.

The server 11 may be in communication connection with the image acquisition device, the image acquisition device may include a plurality of acquisition modules, each acquisition module in the image acquisition device acquires an image in the image source device, and the image acquisition device sends a plurality of acquired images in the image source device to the server 11.

A server 11 for transmitting the thumbnail and the image number corresponding to each image to the management apparatus 12;

the server 11 generates a thumbnail image corresponding to each image from the plurality of received images, numbers each image, and transmits the thumbnail image and the image number corresponding to each thumbnail image to the management apparatus 12.

And a management device 12 for displaying thumbnails of the received respective images.

After the management apparatus 12 receives the thumbnails and the image numbers corresponding to the thumbnails, the management apparatus 12 displays all the thumbnails so that the administrator can view them.

The management device 12 is further configured to receive a split-screen display instruction triggered by an administrator and an image number of a first target image to be displayed in the split-screen display device 13; the split-screen display instruction indicates a display mode and display position information of the first target image in the split-screen display equipment;

the administrator determines, by the management apparatus 12, which pictures need to be displayed on the split-screen display apparatus 13, based on the thumbnails displayed by the management apparatus 12.

Specifically, the administrator performs an operation on the management apparatus 12 to determine a diagram to be displayed on the split-screen display apparatus 13; the management device 12 generates a split-screen display instruction and a request instruction according to the operation information of the administrator, wherein the split-screen display instruction can embody the image number of each first target image displayed on the split-screen display device 13, the display mode of each first target image in the split-screen display mode and the display position information of each image on the split-screen display device 13; the management apparatus 12 transmits a split-screen display instruction including the display manner of each first target image and the display position information of each first target image to the split-screen display apparatus 13, and transmits a request instruction including the image number of the first target image requested to be transmitted to the server 11.

In one implementation, the display mode includes: the number of divided windows on the screen of the split-screen display device 13 and the window number corresponding to each window;

the displaying the position information includes: the target window sequence number corresponding to each first target image;

the split-screen display device 13 is further configured to display each first target image in each target window according to the target window number corresponding to each first target image.

It should be noted that the image display manner may include the number of windows divided into a whole screen in the split-screen display device 13 and the window number corresponding to each window, where each window displays one image, and the display position information is the target window number corresponding to each first target image. Since the window number corresponding to each window and the target window number corresponding to each first target image are known, each first target image can be displayed in each target window according to the target window number corresponding to each first target image.

Specifically, the image display mode may include the number of windows divided in the entire screen of the split-screen display device 13 and the distribution mode of the windows, each window displays one image, the number of windows is the number of the simultaneously displayed images, and the distribution mode of the windows may be four-square, six-square, nine-square, and the like. After the image display mode is determined, which window each image is displayed in may be determined based on the display position information of each image.

The display position information may specifically be a correspondence between a window number and a window position. The window positions may be represented by window numbers, for example, the images to be displayed in each window are sorted according to the sequence of the zigzag, based on the image display mode, and the obtained window numbers may identify the window positions displayed by each image.

For example, the image display mode is a four-grid mode, the image with the image code of a is displayed in an upper left window, the image with the image code of B is displayed in an upper right window, the image with the image code of C is displayed in a lower left window, and the image with the image code of D is displayed in an upper right window; then, the target window number of the picture with picture code a is 1, the target window number of the picture with picture code B is 2, the target window number of the picture with picture code C is 3, and the target window number of the picture with picture code D is 4; further, the display position information of the image coded as A may be A-1, the display position information of the image coded as B may be B-2, the display position information of the image coded as C may be C-3, and the display position information of the image coded as D may be D-4.

The management device 12 is further configured to send a request instruction to the server 11, and send a split-screen display instruction to the split-screen display device 13, where the request instruction includes: the image number of the first target image.

And the server 11 is further configured to obtain the first target image according to the image number of the first target image, and send the first target image to the split-screen display device 13.

After receiving the request instruction, the server 11 sends the first target image corresponding to the image number in the request instruction to the split-screen display device 13.

For example, if the image numbers in the request instruction are 1 to 6, the server 11 transmits 6 images corresponding to the image numbers 1 to 6 to the split-screen display device 13.

And the split-screen display device 13 is used for displaying the first target image according to the display mode and the display position information.

After receiving the first target images sent by the server 11 and the screen splitting instruction sent by the management apparatus 12, the screen splitting display apparatus 13 displays the received first target images according to the display mode and the display position information of the images in the screen splitting instruction.

For example, the split-screen display device 13 receives 4 first target images corresponding to the image codes a to D, a display mode of the first target image in the split-screen instruction is "four-grid", and display position information of each first target image includes: a-1, B-2, C-3 and D-4; then, as shown in fig. 3, an image of image code a may be displayed in the upper left window in the split screen, an image of image code B may be displayed in the upper right window in the split screen, an image of image code C may be displayed in the lower left window in the split screen, and an image of image D may be displayed in the lower right window in the split screen.

Optionally, if the number of the windows in the split screen is smaller than the number of the first target images sent by the server 11, each first target image may be displayed in the split screen according to a preset display rule.

In particular, the display rules may include a cycle display and a refresh interval. For example, 6 received first target images are displayed, 4 windows in the split screen are displayed, then 1-4 first target images are displayed first, after the duration of continuous display exceeds the refresh interval, 5-6 first target images and 1-2 first target images are displayed, and so on. Of course, other display rules may be set, and the present disclosure is not limited thereto.

An image processing apparatus in an embodiment of the present disclosure includes: the system comprises a server, a management device and a split screen display device; the server is used for receiving a plurality of images in the image source equipment, determining thumbnails and image numbers corresponding to the images, and sending the thumbnails and the image numbers corresponding to the images to the management device; the management device is used for displaying the received thumbnail of each image, receiving a split screen display instruction triggered by an administrator and an image number of a first target image to be displayed in the split screen display device, sending a request instruction to the server, and sending the split screen display instruction to the split screen display device, wherein the split screen display instruction indicates the display mode and the display position information of the first target image in the split screen display device; the request instruction comprises the following steps: an image number of the first target image; the server is also used for acquiring a first target image according to the image number of the first target image and sending the first target image to the split-screen display device; and the split-screen display device is used for displaying the first target image according to the display mode and the display position information. The management device for displaying the thumbnails and the split-screen display device for displaying the images are set to be two different display devices, so that the display area range of the thumbnails and the images can be increased, and the thumbnails of the images can be displayed simultaneously when the number of the received images is large.

In one embodiment, as shown in fig. 4, the image processing apparatus further includes: a reverse control device 14;

the management device 12 is further configured to receive a reverse control instruction triggered by an administrator, and send the reverse control instruction to the server 11; the reverse control instruction comprises: the image number of the second target image to be reversely controlled;

the server 11 is further configured to obtain a second target image according to the image number of the second target image, and send the second target image to the reverse control device 14;

a reverse control device 14 for displaying a second target image;

the reverse control device 14 is further configured to receive reverse control information triggered by the administrator, and send the reverse control information to the image source device corresponding to the second target image.

After the management device 12 displays all the thumbnails to the administrator, the administrator operates on the management device 12 according to the thumbnails, selects a second target image to be subjected to reverse control through the management device 12, and the management device 12 generates a reverse control instruction according to the operation information of the administrator, wherein the reverse control instruction carries the image number of the second target image; the management apparatus 12 transmits a reverse control instruction to the server 11. After receiving the reverse control instruction, the server 11 sends the second target image corresponding to the image number carried in the reverse control instruction to the reverse control device 14; the reverse control device 14 displays the second target image administrator. The administrator operates the reverse direction control device 14 to generate administrator operation information; the reverse control device 14 transmits the administrator operation information to the image source device through the server 11 and the image acquisition device, and the image source device executes the administrator operation information, wherein the administrator operation information comprises a keyboard and mouse event.

Therefore, the method and the device can be suitable for scenes with more images, not only can simultaneously display all the images, but also can independently display the images needing reverse control, and the monitoring and the reverse control are not interfered with each other.

In one embodiment, as shown in fig. 4, the image processing apparatus further includes: a storage device 16;

a server 11 for sending the respective images to a storage device 16;

and a storage device 16 for storing the image.

Alternatively, server 11 may receive each image, copy each image, and send each copied image to storage device 16. In this way, each image can be saved.

When the server 11 receives images acquired by each acquisition module in the image acquisition device, the images acquired by each acquisition module can be copied, and the copied images acquired by each acquisition module are sent to the storage server 11. Therefore, the images acquired by the acquisition modules can be saved.

In one embodiment, in order to allow the administrator to conveniently view the images stored in the storage device 16, as shown in fig. 4, the apparatus further includes: a display device;

the display device is used for receiving an image viewing instruction triggered by an administrator and sending the image viewing instruction to the storage device 16; the image viewing instruction instructs to view the saved image;

storage means 16 for sending the image to the display means;

and the display device is used for displaying images.

The administrator can view the images collected by the respective collection modules stored in the storage server 11 through a display device connected to the storage server 11.

In one embodiment, if the storage space in the storage device 16 is limited, the image stored in the storage device 16 may be updated at this time, specifically:

the server 11 is also used for sending the acquisition time of each image to the storage device 16;

a storage device 16 for saving the image and the acquisition time of the image;

the storage device 16 is also used for acquiring the storage time of each image according to the acquisition time of the image;

and the storage device 16 is also used for deleting the images with the storage time longer than the preset time.

In a specific implementation, the images acquired by the acquisition modules within a period of time may be saved in a cycle, for example, the images acquired by the acquisition modules within the last 72 hours may be saved in a cycle, so as to ensure that the images stored in the storage device 16 are all the latest images.

Fig. 5 and fig. 6 are schematic structural diagrams of an image monitoring and management system according to an embodiment of the present disclosure, where the system includes: the image pickup device 21 and the image processing device: the image processing apparatus includes: a server 11, a management device 12 and a split screen display device 13;

the image acquisition device 21 is configured to acquire a plurality of images in an image source device and send the plurality of images to the server 11;

the image capturing device 21 includes 10 capturing modules S1, S2, S3,. and S10.

The server 11 is configured to receive the plurality of images, and determine thumbnails and image numbers corresponding to the respective images;

the server 11 is further configured to send thumbnails and image numbers corresponding to the respective images to the management apparatus 12;

the management device 12 is used for displaying the received thumbnail of each image;

the management device 12 is further configured to receive a split-screen display instruction triggered by an administrator and an image number of a first target image to be displayed in the split-screen display device 13; the split-screen display instruction indicates a display mode and display position information of the first target image in the split-screen display device 13;

the management device 12 is further configured to send a request instruction to the server 11, and send the split-screen display instruction to the split-screen display device 13, where the request instruction includes: an image number of the first target image;

the server 11 is further configured to obtain the first target image according to the image number of the first target image, and send the first target image to the split-screen display device 13;

and the split-screen display device 13 is configured to display the first target image according to the display position information according to the display mode.

In one embodiment, the image processing apparatus further comprises: a reverse control device 14;

the management device 12 is further configured to receive a reverse control instruction triggered by an administrator, and send the reverse control instruction to the server 11; the reverse control instruction comprises: the image number of the second target image to be reversely controlled;

the server 11 is further configured to obtain the second target image according to the image number of the second target image, and send the second target image to the reverse control device 14;

the reverse control device 14 is further configured to display the second target image;

the reverse control device 14 is further configured to receive reverse control information triggered by an administrator, and send the reverse control information to the image source device corresponding to the second target image.

In one embodiment of the present invention,

the display mode comprises the following steps: the number of the divided windows on the screen of the split-screen display device 13 and the window number corresponding to each window;

the display position information includes: the target window sequence number corresponding to each first target image;

the split-screen display device 13 is further configured to display each first target image in each target window according to the target window number corresponding to each first target image.

In one embodiment, the image processing apparatus further comprises: a storage device 16;

the server 11 is further configured to send each of the images to the storage device 16;

the storage device 16 is used for saving the image.

In one embodiment, the image processing apparatus further comprises: a display device;

the display device is used for receiving an image viewing instruction triggered by an administrator and sending the image viewing instruction to the storage device 16; the image viewing instructions instruct to view the saved image;

the storage device 16 is further configured to send the image to the display device;

the display device is used for displaying the image.

In one embodiment of the present invention,

the server 11 is further configured to send the acquisition time of each image to the storage device 16;

the storage device 16 is further configured to save the image and the acquisition time of the image;

the storage device 16 is further configured to obtain a saving time of each image according to the obtaining time of the image;

the storage device 16 is further configured to delete the image with the storage time longer than a preset time.

The image monitoring and managing system provided by the invention can display the images acquired by the acquisition modules on the split-screen display device according to a preset display mode and display the images needing reverse control on the reverse control device through the managing device, wherein the split-screen display device can simultaneously display a plurality of images.

Like this, under the scene that collection module is more, can be so that the image of each collection module shows simultaneously, moreover, can show the image that needs reverse control alone, control and reverse control mutual noninterference.

The embodiment of the present disclosure provides an image processing method, as shown in fig. 7, which is applied to the image processing apparatus according to any one of the embodiments described above, and the image processing method includes the steps of:

101. a plurality of images in an image source device are received.

102. And acquiring the thumbnail and the image number corresponding to each image.

103. The control management apparatus outputs thumbnails of the respective images.

104. Receiving a split-screen display instruction triggered by an administrator through an operation management device and a number of a first target image to be displayed in the split-screen display device; the split-screen display instruction indicates a display mode and display position information of the first target image in the split-screen display device.

105. And acquiring the first target image according to the number of the first target image.

106. And controlling the split screen display device to display the first target image according to the display mode and the display position information.

In one embodiment, the method further comprises:

receiving a reverse control instruction triggered by an administrator through a management device; the reverse control instruction comprises: the image number of the second target image to be reversely controlled;

acquiring a second target image according to the image number of the second target image;

controlling the reverse control device to display a second target image;

and receiving reverse control information triggered by the administrator through the reverse control device, and sending the reverse control information to the image source equipment corresponding to the second target image.

In one embodiment of the present invention,

the display mode comprises the following steps: the method comprises the following steps of dividing the screen of the split-screen display device into the number of windows and the window serial number corresponding to each window;

the displaying the position information includes: the target window sequence number corresponding to each first target image;

the control split screen display device displays a first target image according to display position information according to a display mode, and comprises the following steps:

and controlling the split-screen display device to display each first target image in each target window according to the target window serial number corresponding to each first target image.

In one embodiment, the method further comprises:

and controlling the storage device to store the image.

In one embodiment, the method further comprises:

receiving an image viewing instruction triggered by a manager through a display device, wherein the image viewing instruction indicates that a stored image is viewed;

acquiring an image from a storage device;

and controlling the display device to display the image.

In one embodiment, the method further comprises:

controlling the storage device to store the images and the acquisition time of the images:

controlling a storage device to obtain the storage time of each image according to the acquisition time of the image;

and controlling the storage device to delete the images with the storage time longer than the preset time.

Based on the image processing method described in the embodiment corresponding to fig. 1, the following is an embodiment of the apparatus of the present disclosure, which can be used to execute an embodiment of the method of the present disclosure.

An embodiment of the present disclosure provides an image processing apparatus, as shown in fig. 8, including:

a first receiving module 31 for receiving a plurality of images in an image source device;

a first obtaining module 32, configured to obtain thumbnails and image numbers corresponding to the respective images;

a first control module 33 for controlling the management apparatus to output thumbnails of the respective images;

a second receiving module 34, configured to receive a split-screen display instruction triggered by an administrator through operation of the management apparatus and a number of a first target image to be displayed in the split-screen display apparatus; the split-screen display instruction indicates a display mode and display position information of the first target image in the split-screen display device;

a second obtaining module 35, configured to obtain the first target image according to the number of the first target image;

and the second control module 36 is configured to control the split-screen display device to display the first target image according to the display position information according to the display mode.

In one embodiment, the apparatus further comprises:

the third receiving module is used for receiving a reverse control instruction triggered by the administrator through the management device; the reverse control instruction comprises: the image number of the second target image to be reversely controlled;

the third acquisition module is used for acquiring a second target image according to the image number of the second target image;

the third control module is used for controlling the reverse control device to display the second target image;

and the fourth receiving module is used for receiving reverse control information triggered by the administrator through the reverse control device and sending the reverse control information to the image source equipment corresponding to the second target image.

In one embodiment of the present invention,

the display mode comprises the following steps: the method comprises the following steps of dividing the screen of the split-screen display device into the number of windows and the window serial number corresponding to each window;

the displaying the position information includes: the target window sequence number corresponding to each first target image;

the second control module 36 is further configured to:

and controlling the split-screen display device to display each first target image in each target window according to the target window serial number corresponding to each first target image.

In one embodiment, the above apparatus further comprises:

and the fourth control module is used for controlling the storage device to store the image.

In one embodiment, the above apparatus further comprises:

the fifth receiving module is used for receiving an image viewing instruction triggered by the administrator through the display device, and the image viewing instruction indicates that the stored image is viewed;

the fifth acquisition module is used for acquiring the image from the storage device;

and the fifth control module is used for controlling the display device to display the image.

In one embodiment, the above apparatus further comprises:

the sixth control module is used for controlling the storage device to store the images and the acquisition time of the images;

the seventh control module is used for controlling the storage device to acquire the storage time of each image according to the acquisition time of the image;

and the eighth control module is used for controlling the storage device to delete the images with the storage time longer than the preset time.

Based on the image processing method described in the embodiment corresponding to fig. 1, an embodiment of the present disclosure further provides a computer-readable storage medium, for example, the non-transitory computer-readable storage medium may be a Read Only Memory (ROM), a Random Access Memory (RAM), a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device, and the like. The storage medium stores computer instructions for executing the data transmission method described in the embodiment corresponding to fig. 1, which is not described herein again.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.