KR102625997B1 - Apparatus and method for adjusting the focus of an image in an internet protocol video wall system - Google Patents

Abstract

This disclosure relates to an apparatus and method for controlling focus in an IP video wall system. According to the present disclosure, an IP video wall system includes a video wall that displays output images on a screen using a plurality of displays, a network display server that decodes images and outputs them to the plurality of displays, and is connected to the network display server, An IP wall controller configured to control focus of the output image displayed on a video wall, wherein the IP wall controller obtains a focus confirmation command for a plurality of images, and in response to obtaining the focus confirmation command, Requesting measurement of focus data, receiving the focus data, using the focus data, extracting an out-of-focus image requiring focus adjustment from among the plurality of images, and commanding focus adjustment for the out-of-focus image. Focus adjustment information may be generated, and the list of out-of-focus images and the focus adjustment information may be transmitted to the network display server.

Description

Apparatus and method for adjusting the focus of an image in an IP video wall system {APPARATUS AND METHOD FOR ADJUSTING THE FOCUS OF AN IMAGE IN AN INTERNET PROTOCOL VIDEO WALL SYSTEM}

This disclosure generally relates to an IP video wall system, and more specifically, to determine whether there is an abnormality in the focus of images through focus scanning in an IP video wall system and to adjust the focus of the image in which an abnormality occurs. It relates to devices and methods.

A surveillance system based on CCTV (closed circuit television) is a system that monitors a specific area using an image capture device, and is used in various fields such as building security, crime prevention, safety accident monitoring, and rapid accident handling. In particular, in order to help the monitor quickly check the situation from the surveillance video, an IP (internet protocol) video wall type surveillance system is provided that can display surveillance video of a specific area on a large screen by connecting multiple displays. Interest is increasing.

The IP video wall system refers to a monitoring system in a security room that allows a supervisor to monitor the entire building's security system at a glance and take immediate action when a situation occurs. According to the IP video wall system, multiple display panels are combined to create one large screen, and the combination of multiple display panels receives various multimedia video signals from computers, IP cameras, CCTV, etc. and displays them on the large screen. . For example, images input from multiple CCTVs may be displayed on individual display panels, and one image may be enlarged and displayed on multiple display panels as needed.

A video wall has a structure in which display panels are arranged in a grid, and when multiple images are input, the images are arranged in each of the divided areas of the large screen and displayed all at once. Here, even if some of the images are out of focus, the monitor can only grasp the approximate content of all images as multiple images are displayed at once, and check whether each image is properly focused. It was difficult. In response to this, there is a demand for technology development to more precisely control the focus of images in IP video wall systems.

The above-mentioned technology is technical information that the inventor possessed for deriving the present invention or acquired in the process of deriving the present invention, and does not necessarily indicate known technology disclosed to the general public before filing the application for the present invention.

Registered Patent Publication No. 10-2267559 (2021.06.15)

Based on the above-described discussion, this disclosure provides an apparatus and method for individually controlling focus for each image in an IP video wall system.

In addition, the present disclosure provides an apparatus and method for dividing the image area into a main area and a sub-area in an IP video wall system and determining whether there is an abnormality in focus based on focus data for the main area.

Additionally, the present disclosure provides an apparatus and method for checking whether there is a focus abnormality in an image using luminance and contrast values in an IP video wall system.

Additionally, the present disclosure provides an apparatus and method for determining a standard for determining focus abnormality using the size and arrangement information of the video wall in an IP video wall system.

Additionally, the present disclosure provides an apparatus and method for providing guidance on focus correction to a viewer in an IP video wall system.

According to various embodiments of the present disclosure, an IP video wall system includes a video wall that displays output images on a screen using a plurality of displays, a network display server that decodes images and outputs them to the plurality of displays, and the network display server. and an IP wall controller that is connected and controls to adjust the focus of the output image displayed on the video wall, wherein the IP wall controller obtains a focus confirmation command for a plurality of images, and obtains the focus confirmation command. In response, request measurement of focus data and receive the focus data, use the focus data to extract an out-of-focus image requiring focus adjustment from among the plurality of images, and focus on the out-of-focus image. A remote control that generates focus adjustment information for commanding adjustment, transmits a list of out-of-focus images, and the focus adjustment information to the network display server, and the network display server remotely controls display of the video wall. The list can be transmitted to the device, and the focus adjustment information can be transmitted to the image providing device.

According to another embodiment, the IP wall controller selects a target image from among the plurality of images, divides the area of the target image into a main area and a sub area, and sets a first contrast for the main area. A main focus abnormality level is determined using data, a sub-focus abnormality level is determined using second contrast data for the sub-area, and a focus abnormality level determined by adding the main focus abnormality level and the sub-focus abnormality level If it is greater than this focus reference level, the target image may be determined as the out-of-focus image.

According to another embodiment, the IP wall controller may determine the main focus abnormality level by summing the difference between the measured luminance value compared to the lowest luminance value and the measured contrast value compared to the maximum contrast value for the main area. .

According to another embodiment, the IP wall controller may obtain size and arrangement information of a plurality of displays constituting the video wall, and determine the focus reference level using the size and arrangement information.

According to another embodiment, the network display server receives a focus correction image according to the focus adjustment information from the image providing device, and sends a comparison image simultaneously displaying the focus abnormality image and the focus correction image to the remote control device. , a highlight can be added to the border of the focus-corrected image, and the focus-corrected image with the highlight added can be output to the video wall.

Various respective aspects and features of the invention are defined in the appended claims. Combinations of the features of the dependent claims may be combined with the features of the independent claims as appropriate, not just those explicitly set out in the claims.

Additionally, one or more features selected from any one embodiment described in this disclosure may be combined with one or more features selected from any other embodiments described in this disclosure, and alternatives to these features may be used. A combination of the above may at least partially alleviate one or more technical problems discussed in this disclosure, or at least partially alleviate technical problems that can be discerned by a person skilled in the art from this disclosure, and further provide the features of the embodiments ( Unless such a particular combination or permutation of embodiment features is understood by those skilled in the art to be incompatible, the combination is possible.

In any described example implementation of this disclosure, two or more physically distinct components may alternatively be integrated into a single component if such integration is possible, so forming a single component. If the same function is performed by , integration is possible. Conversely, a single component of any embodiment described in this disclosure may alternatively, where appropriate, be implemented as two or more separate components that achieve the same functionality.

It is an object of certain embodiments of the present invention to solve, alleviate or eliminate, at least in part, at least one of the problems and/or disadvantages associated with the prior art. Certain embodiments aim to provide at least one of the advantages described below.

Apparatus and methods according to various embodiments of the present disclosure enable focus adjustment for each image individually in an IP video wall system.

In addition, the apparatus and method according to various embodiments of the present disclosure can divide the image area into a main area and a sub area in an IP video wall system and determine whether there is an abnormality in focus based on focus data for the main area. let it be

In addition, the apparatus and method according to various embodiments of the present disclosure enable the IP video wall system to accurately check whether there is a focus abnormality in the image by using the luminance value and the contrast value.

In addition, the apparatus and method according to various embodiments of the present disclosure enable the IP video wall system to determine a standard for determining focus abnormality according to the state of the video wall by using the size and arrangement information of the video wall.

Additionally, the apparatus and method according to various embodiments of the present disclosure enable guidance on focus correction to be provided to a viewer in an IP video wall system.

The effects that can be obtained from the present disclosure are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description below. will be.

The accompanying drawings, which are included as part of the detailed description to aid understanding of the embodiments, provide various embodiments and together with the detailed description describe technical features of the various embodiments.
1 illustrates an IP video wall system according to various embodiments of the present disclosure.
FIG. 2 illustrates the configuration of an IP wall controller in an IP video wall system according to various embodiments of the present disclosure.
FIG. 3 shows a flowchart of a method of operating an IP video wall system according to various embodiments of the present disclosure.
FIG. 4 illustrates a graph illustrating a method of determining a main focus abnormality level using luminance and contrast in an IP video wall system according to various embodiments of the present disclosure.
FIG. 5 illustrates a flowchart of a method of operating an IP wall controller in an IP video wall system according to various embodiments of the present disclosure.

Terms used in the present disclosure are merely used to describe specific embodiments and may not be intended to limit the scope of other embodiments. Singular expressions may include plural expressions, unless the context clearly indicates otherwise. Terms used herein, including technical or scientific terms, may have the same meaning as generally understood by a person of ordinary skill in the technical field described in this disclosure. Among the terms used in this disclosure, terms defined in general dictionaries may be interpreted to have the same or similar meaning as the meaning they have in the context of related technology, and unless clearly defined in this disclosure, have an ideal or excessively formal meaning. It is not interpreted as In some cases, even terms defined in the present disclosure cannot be interpreted to exclude embodiments of the present disclosure.

In various embodiments of the present disclosure described below, a hardware approach method is explained as an example. However, since various embodiments of the present disclosure include technology using both hardware and software, the various embodiments of the present disclosure do not exclude software-based approaches.

Hereinafter, this disclosure relates to an IP (internet protocol) video wall system. Specifically, this disclosure describes a technique for determining whether there is an abnormality in the focus of images through focus scanning in an IP video wall system and adjusting the focus for the image with an abnormality.

Below, various embodiments will be described in detail with reference to the attached drawings so that those skilled in the art can easily implement them. However, since the technical idea of the present disclosure can be modified and implemented in various forms, it is not limited to the embodiments described in this specification. In describing the embodiments disclosed in this specification, if it is determined that detailed description of related known technologies may obscure the gist of the technical idea of the present disclosure, detailed descriptions of the known technologies will be omitted. Identical or similar components will be assigned the same reference number and duplicate descriptions thereof will be omitted.

In this specification, when an element is described as being "connected" to another element, this includes not only the case of being "directly connected" but also the case of being "indirectly connected" with another element in between. When an element is said to “include” another element, this means that it does not exclude another element in addition to the other element, but may further include another element, unless specifically stated to the contrary.

Some embodiments may be described in terms of functional block configurations and various processing steps. Some or all of these functional blocks may be implemented as any number of hardware and/or software configurations that perform specific functions. For example, the functional blocks of the present disclosure may be implemented by one or more microprocessors, or may be implemented by circuit configurations for certain functions. Functional blocks of the present disclosure may be implemented in various programming or scripting languages. The functional blocks of this disclosure may be implemented as algorithms running on one or more processors. Functions performed by a functional block in the present disclosure may be performed by a plurality of functional blocks, or functions performed by a plurality of functional blocks in the present disclosure may be performed by a single functional block. Additionally, the present disclosure may employ conventional technologies for electronic environment setup, signal processing, and/or data processing.

In addition, in the present disclosure, the expressions greater than or less than are used to determine whether a specific condition is satisfied or fulfilled, but this is only a description for expressing an example and excludes descriptions of more or less. It's not about doing it. Conditions written as ‘more than’ can be replaced with ‘more than’, conditions written as ‘less than’ can be replaced with ‘less than’, and conditions written as ‘more than and less than’ can be replaced with ‘greater than and less than’.

Additionally, in the present disclosure, an image refers to an image visualized to visually capture information by light rays or media arranged on a plane or in space. According to an embodiment of the present disclosure, the image may include a still image and a moving image.

1 illustrates an IP video wall system 100 according to various embodiments of the present disclosure.

The IP video wall system 100 indicates a system that displays multimedia images on a video wall. Specifically, a video wall can form a single large screen by combining a plurality of displays, and images captured in the surveillance area can be displayed on the large screen. Using a large screen, the supervisor can more quickly recognize the occurrence of situations in the surveillance area by checking the images of the surveillance area at a glance or zooming in on one image to check it in detail. According to an embodiment of the present disclosure, the IP video wall system 100 includes a video wall 110, an image providing device 120, a network display server 130, an IP wall controller 140, and a remote control device 150. , and may include a network 160.

The video wall 110 refers to display devices installed in a collective manner in which a plurality of display panels are connected to display one large screen. The video wall 110 may be composed of a combination of a plurality of displays. According to an embodiment of the present disclosure, the video wall 110 may be configured in a 3 x 3 shape by arranging three display devices in the horizontal direction and three display devices in the vertical direction, and the video wall 110 ) The arrangement method for the arrangement of the displays is not limited to this.

The image providing device 120 indicates a device that supplies images captured in the surveillance area. The image providing device 120 may perform a function of generating an image or acquiring an image, and supplying the image so that the acquired image can be displayed on the video wall 110. According to an embodiment of the present disclosure, the image providing device 120 may be an IP camera that captures a surveillance area and generates an image, and may also be a DVR (DVR) that collects images from IP cameras and supplies the images to a display. It may be a digital video recorder or a network video recorder (NVR).

The network display server 130 instructs an electronic device that receives an image from the image providing device 120, processes the data, and then delivers the image to the video wall 110. To this end, the network display server 130 may be connected to a plurality of displays of the video wall 110 and the image providing device 120. Since the video providing device 120 encodes and transmits the video, the network display server 130 can decode the video encoded from the video providing device 120 and transmit it to the video wall 110, and the video wall 110 The decoded video can be displayed on the screen.

The IP wall controller 140 directs an electronic device that comprehensively controls image display through the video wall 110. The IP wall controller 140 may manage a list of the network display server 130 and the image providing device 120 and manage the overall image display, including display monitor screen arrangement. For example, the IP wall controller 140 can add, change, or delete images and text to be transmitted by the network display server 130 to the video wall 110, and determines whether or not there is a focus abnormality for each of the images through the focus scan function. It can provide a function to manage video display, such as checking and adjusting the focus on video with abnormalities.

The remote control device 150 instructs the supervisor to use an electronic device that supports remote control of the IP video wall system 100. The monitor can check the display contents of the video wall 110 using the remote control device 150 and can also control the display of the video wall 110. For example, the remote control device 150 can connect to the network display server 130 through the network 160 and display the image being displayed on the video wall 110 on its own display, according to the input from the monitor. The image displayed on the video wall 110 can be changed. According to an embodiment of the present disclosure, the remote control device 150 may include a fixed terminal implemented as a computer device or a mobile terminal. Specifically, the remote control device 150 can instruct a smart phone, mobile phone, navigation, computer, laptop, digital broadcasting terminal, personal digital assistants (PDA), portable multimedia player (PMP), and tablet PC. .

As shown in FIG. 1, components of the IP video wall system 100 may be connected through a network 160. According to an embodiment of the present disclosure, the network 160 refers to a connection structure capable of exchanging information between nodes such as a plurality of terminals and servers. Examples of such networks include RF, 3GPP (3rd generation partnership project) network, LTE (long term evolution) network, 5GPP (5th generation partnership project) network, WIMAX (world interoperability for microwave access) network, Internet, LAN (local area network), Wireless LAN (wireless local area) network), WAN (wide area network), PAN (personal area network), Bluetooth network, NFC network, satellite broadcasting network, analog broadcasting network, DMB (digital multimedia broadcasting) network, etc., but are not limited thereto. .

According to the IP video wall system 100, when a plurality of images are displayed on the video wall 110, the monitor checks the plurality of images at a glance. In this case, as the monitor checks multiple screens at once, it is difficult to determine whether each image is properly focused. To this end, the IP wall controller 140 can automatically check whether each of the plurality of images is in focus and control the image providing device that captured the out-of-focus image to adjust the focus. In Figure 2, the specific configuration of the IP wall controller 140 is explained in detail.

FIG. 2 illustrates a configuration 200 of the IP wall controller 140 in the IP video wall system 100 according to various embodiments of the present disclosure. Terms such as '... unit' and '... unit' used hereinafter refer to a unit that processes at least one function or operation, which can be implemented through hardware, software, or a combination of hardware and software. there is. The IP wall controller 140 may include a memory 210, a processor 220, a communication unit 230, an input/output interface 240, and a display unit 250.

The memory 210 temporarily or permanently stores data such as basic programs, applications, and setting information for the operation of the IP wall controller 140. The memory 210 may include a non-permanent mass storage device such as random access memory (RAM), read only memory (ROM), and a disk drive, but the present invention is not limited thereto. These software components may be loaded from a computer-readable recording medium separate from the memory 210 using a drive mechanism. Such separate computer-readable recording media may include computer-readable recording media such as floppy drives, disks, tapes, DVD/CD-ROM drives, and memory cards. Depending on the embodiment, software components may be loaded into the memory 210 through the communication unit 230 rather than a computer-readable recording medium. Additionally, the memory 210 may provide stored data upon request from the processor 220. According to one embodiment of the present disclosure, the memory 210 may store data related to focus adjustment.

The processor 220 controls the overall operations of the IP wall controller 140. For example, the processor 220 may control signals to be transmitted and received through the communication unit 230. Additionally, the processor 220 may be configured to process instructions of a computer program by performing basic arithmetic, logic, and input/output operations. Commands may be provided to the processor 220 by the memory 210 or the communication unit 230. For example, processor 220 may be configured to execute received instructions according to program code stored in a recording device such as memory 210. For example, the processor 220 may control the IP wall controller 140 to perform operations according to various embodiments described later.

According to an embodiment of the present disclosure, the processor 220 obtains a focus confirmation command for a plurality of images, and in response to obtaining the focus confirmation command, requests measurement of focus data, receives focus data, and performs a focus operation. Using data, out-of-focus images that require focus adjustment are extracted from a plurality of images, focus adjustment information that commands focus adjustment for the out-of-focus images is generated, a list of out-of-focus images, and focus adjustment information are generated. can be controlled to transmit to the network display server.

The communication unit 230 performs functions for transmitting and receiving signals through a wireless channel. All or part of the communication unit 230 may be referred to as a transmitting unit, a receiving unit, or a transmitting/receiving unit. The communication unit 230 may provide a function for the IP wall controller 140 and at least one other node to communicate with each other through a communication network. According to an embodiment of the present disclosure, when the processor 220 of the IP wall controller 140 generates a request signal according to a program code stored in a recording device such as the memory 210, the request signal is sent to the communication unit 230. Depending on the control, it may be transmitted to at least one other node through a communication network. Conversely, control signals, commands, content, files, etc. provided under the control of a processor of at least one other node may be received by the IP wall controller 140 through the communication unit 230. According to an embodiment of the present disclosure, the communication unit 230 can receive a focus confirmation command and focus data, and can transmit focus adjustment information.

The input/output interface 240 may be a means for interfacing with an input/output device (not shown). At this time, the input device may be, for example, a device such as a keyboard or mouse, and the output device may be provided in the form of a device such as a display unit for displaying images. As another example, the input/output interface 240 may be a means for interfacing with a device that integrates input and output functions, such as a touch screen. Specifically, the processor 220 of the IP wall controller 140 processes the commands of the computer program loaded in the memory 210, and displays service screens or content constructed using data provided by the server through the input/output interface 240. It can be displayed on the display through . According to an embodiment of the present disclosure, the input/output interface 240 may include means for interfacing with the display unit 250. The input/output interface 240 may receive a user input for a web browsing window displayed on the display unit 250, and output data to be output through the display unit 250 in response to the above-described user input from the processor 220. It can be delivered. According to an embodiment of the present disclosure, the input/output interface 240 may directly receive a control signal for focus adjustment from the supervisor.

The display unit 250 indicates a display module including one or more displays. Each of the one or more displays included in the display unit 250 may individually display independent content, and the one or more displays described above may be combined to display a single content. According to an embodiment of the present disclosure, one or more displays included in the display unit 250 may include multiple physically separated displays, or may be multiple physically combined displays, and one screen may be divided and used. It may be a display that can be used. According to an embodiment of the present disclosure, the display unit 250 can directly display the focus adjustment status on its screen.

The IP wall controller 140 is connected to a network display server and can adjust the focus of the output image displayed on the video wall. To this end, the IP wall controller 140 may collect focus data for a plurality of images according to a focus confirmation command from the supervisor and extract an out-of-focus image from the focus data. The IP wall controller 140 can extract out-of-focus images by checking the out-of-focus level for each image using focus data, and can command focus adjustment to the image providing device that captured the out-of-focus image. At this time, the network display server 130 displays a list of focus abnormality images provided from the IP wall controller 140 or before and after focus adjustment so that the monitor operating the remote control device 150 can check the details of the occurrence of the focus abnormality. An image comparing can be transmitted to the remote control device 150. In addition, the network display server 130 adds a highlight to the border of the image whose focus has been modified so that the observer checking the video wall 110 can check the details of the occurrence of focus abnormality, and displays the image to which the highlight has been added. It can be output to the video wall (110).

FIG. 3 shows a flowchart 300 of a method of operating the IP video wall system 100 according to various embodiments of the present disclosure. FIG. 3 shows the overall operation method of the IP wall controller 140, network display server 130, image providing device 120, and remote control device 150 of the IP video wall system 100.

Referring to FIG. 3, in step 301, the IP wall controller 140 obtains a focus confirmation command. The IP wall controller 140 may obtain a command signal for checking the focus status of images. According to an embodiment of the present disclosure, the IP wall controller 140 may directly receive a focus confirmation command from the monitor through the input/output interface 240. According to another embodiment of the present disclosure, the IP wall controller 140 may receive a focus confirmation command from the remote control device 150.

At step 303, IP wall controller 140 requests focus data. In response to obtaining the focus confirmation command, the IP wall controller 140 may request the image providing device 120 to measure focus data. Here, the focus data may indicate data related to luminance and contrast according to the position of the lens for each image. According to an embodiment of the present disclosure, focus data may include luminance data according to the distance of the lens, contrast data according to the distance of the lens, and luminance and contrast values according to the current lens position. 3 illustrates a case where the IP wall controller 140 directly requests focus data from the video providing device 120, but in step 303, the IP wall controller 140 sends focus data to the network display server 130. The request may be made, and the network display server 130 may transmit the focus data request to the image providing device 120.

In step 305, the image providing device 120 transmits focus data to the IP wall controller 140. The image providing device 120 may measure the luminance value and contrast value in the current state and transmit the measured value and luminance and contrast data according to the lens position to the IP wall controller 140.

In step 307, the IP wall controller 140 extracts the out-of-focus image. The IP wall controller 140 may use focus data to extract an out-of-focus image that is determined to require focus adjustment from among a plurality of images. To this end, the IP wall controller 140 divides the image into a main area and a sub-area for each of the plurality of images, calculates and sums the out-of-focus level for each of the main area and sub-area, and calculates and sums the out-of-focus level for each of the main area and sub-area. An out-of-focus image can be extracted by comparing it to the reference level and determining whether focus adjustment is necessary.

The IP wall controller 140 selects a target image indicating one of a plurality of images and divides the area of the target image into a main area and a sub area. According to an embodiment of the present disclosure, the IP wall controller 140 may divide the area of the target image according to a preset area division. Since the plurality of images are images taken of the surveillance area with a camera fixed to a specific location, there are areas that require special attention and management depending on the environment of the surveillance area. Therefore, each of the plurality of images can be preset to be divided into an area requiring special attention and management and the remaining areas, and the IP wall controller 140 sets the area requiring special attention management for the target image as the main area and the remaining areas. can be divided into sub-areas. According to another embodiment of the present disclosure, the IP wall controller 140 may distinguish areas using the luminance values of pixels of the target image. Lighting can be arranged for more accurate observation of the surveillance area, and the IP wall controller 140 can classify an area with high luminance compared to the surrounding area in the target image as a main area and the remaining areas as sub areas. For example, the IP wall controller 140 obtains the average luminance value from each pixel of the target image at a specific point in time, extracts pixels with luminance higher than the average luminance value by a preset value and sets them as the main area, and sets the remaining pixels as the main area. The area can be set as a sub-area.

Thereafter, the IP wall controller 140 determines the main focus abnormality level using the first contrast data for the main area and determines the sub-focus abnormality level using the second contrast data for the sub area. The IP wall controller 140 may check the difference between the current contrast value and the maximum contrast value with respect to the contrast data for the main area, extract the focus abnormality level corresponding to the difference, and determine the main focus abnormality level. To this end, the IP wall controller may store in advance a table indicating the correspondence between contrast value differences and focus abnormality levels. In the same way, the IP wall controller 140 checks the difference between the current contrast value and the maximum contrast value with respect to the contrast data for the sub-area, and extracts the focus abnormality level corresponding to the difference using the table to detect the sub-focus abnormality. You can decide the level.

Additionally, the IP wall controller 140 may use the luminance value when determining the main focus abnormality level in order to respond to cases where the luminance value is distorted due to objects emitting light within the main area. According to an embodiment of the present disclosure, the IP wall controller 140 measures the measured luminance value compared to the lowest luminance value when the number of pixels whose luminance value is less than or equal to the threshold luminance value is greater than or equal to the threshold ratio for each of the pixels in the main area of the target image. The main focus abnormality level can be determined by summing the difference between and the difference between the measured contrast value and the maximum contrast value. The method of determining the main focus abnormality level using the luminance value is explained in detail in FIG. 4.

The IP wall controller 140 determines the focus abnormality level by adding the main focus abnormality level and the sub-focus abnormality level. The IP wall controller 140 may determine the focus abnormality level by applying a first weight to the main focus abnormality level, applying a second weight to the sub-focus abnormality level, and summing them. Here, in order to determine the importance of the main area, the first weight may be set to be higher than the second weight.

If the out-of-focus level in the target image is greater than the focus reference level, the IP wall controller 140 determines the target image as an out-of-focus image. The IP wall controller 140 may compare the determined abnormal focus level with the focus reference level. To this end, the IP wall controller 140 may determine the focus reference level based on the size and arrangement of the plurality of displays constituting the video wall 110. As the screens of the plurality of displays constituting the video wall 110 become larger, more precise and clearer screens are required. For example, if the video wall 110 is implemented with 30-inch displays in a 3 x 5 arrangement, and 25-inch displays are implemented in a 3 x 3 arrangement, a clearer screen is required. Therefore, the standard for focus is high. Therefore, the IP wall controller 140 can pre-store a table indicating the correlation between the size and arrangement of the display and the focus reference level, and check the size and arrangement information received from the network display server 130 to determine the focus reference level. You can decide the level. The IP wall controller 140 may classify a target image whose out-of-focus level is greater than the focus reference level as an out-of-focus image. The IP wall controller 140 can extract an out-of-focus image by sequentially determining all of the plurality of images using the same method as the method for determining whether a target image is out of focus.

At step 309, IP wall controller 140 generates focus adjustment information. The IP wall controller 140 may generate focus adjustment information that commands focus adjustment for an out-of-focus image. The focus adjustment information may indicate a command signal for commanding focus adjustment to the image capture device that generated the out-of-focus image.

In step 311, the IP wall controller 140 transmits a list of out-of-focus images and focus adjustment information to the network display server 130. The IP wall controller 140 may list the extracted out-of-focus images and transmit the list and focus adjustment information to the network display server 130.

In step 313, the network display server 130 transmits focus adjustment information to the image providing device 120. The network display server 130 may transmit focus adjustment information to the image providing device 120 in order to receive an image with the focus modified. When the video providing device 120 is a network video recorder, the video providing device 120 transmits focus adjustment information to the video capturing device that captured the out-of-focus video based on the focus adjustment information, and corrects the captured video after focus correction. Video can be received, and the received video can be transmitted to the network display server 130. If the video providing device 120 is a camera, the video providing device 120 checks whether there is a focus problem based on the focus adjustment information, and if it is determined that there is a focus problem, corrects the focus, takes the video, and displays it on the network. It can be transmitted to the server 130.

In step 315, the network display server 130 transmits a list of out-of-focus images to the remote control device 150. The network display server 130 can inform the monitor operating the remote control device 150 of the status of the focus abnormality by transmitting the list.

Additionally, the network display server 130 receives a focus-corrected image according to the focus adjustment information from the image providing device 120, and verifies the first monitor operating the remote control device 150 and the video wall 110. 2 A focus correction video can be provided to each monitor. Specifically, the network display server 130 transmits a comparison image that simultaneously displays the out-of-focus image and the focus-correction image to the remote control device 150, adds a highlight to the border of the focus-correction image, and adds the highlight. The focus-corrected image can be output to the video wall 110.

FIG. 4 illustrates a graph 400 for explaining a method of determining a main focus abnormality level using luminance and contrast in the IP video wall system 100 according to various embodiments of the present disclosure.

The focus may be distorted due to the shape of the object, etc. due to an object equipped with a light emitting means, and the IP wall controller 140 may determine the level of focus abnormality using luminance and contrast.

In FIG. 4 , the horizontal axis indicates the lens distance, and the graph 400 illustrates changes in contrast 410 and luminance 460 according to changes in lens distance. In addition, r ₁ is the lens distance with the maximum contrast, r _x is the current lens distance, r ₂ indicates the lens distance with the lowest luminance, D ₁ is the maximum contrast value, and D _x1 is the contrast value measured at r _x. , D _x2 is the luminance value measured at r _x , and D ₂ indicates the lowest luminance value.

A clear image can be secured only when the contrast value is high, and for an object equipped with a light emitting means, the luminance value must be low to accurately identify the object. Referring to FIG. 4, based on the current lens distance _r It is done. Since it means that the focus is not as much as the spaced difference, the IP wall controller 140 calculates the first difference 411 and the second difference 461, respectively, and the first difference 411 and the second difference 461 By adding up, the main focus abnormality level can be determined.

FIG. 5 illustrates a flowchart 500 of a method of operating the IP wall controller 140 in the IP video wall system 100 according to various embodiments of the present disclosure.

Referring to FIG. 5, in step 501, the IP wall controller 140 obtains a focus confirmation command for a plurality of images. The IP wall controller 140 may receive a focus confirmation command from the monitor or a focus confirmation command from the remote control device 150.

In step 503, the IP wall controller 140 requests measurement of focus data and receives focus data in response to obtaining the focus confirmation command. When the IP wall controller 140 obtains a focus confirmation command, it may request the image providing device 120 to measure focus data. Accordingly, the image providing device 120 may measure focus data related to contrast and luminance and transmit it to the IP wall controller 140.

In step 505, the IP wall controller 140 uses focus data to extract an out-of-focus image that requires focus adjustment from a plurality of images and provides focus adjustment information to command focus adjustment for the out-of-focus image. Create.

The IP wall controller 140 may determine an out-of-focus image based on focus data. According to an embodiment of the present disclosure, the IP wall controller 140 selects a target image from a plurality of images, divides the area of the target image into a main area and a sub area, and generates first contrast data for the main area. The main focus abnormality level is determined using the second contrast data for the sub-area to determine the sub-focus abnormality level, and the focus abnormality level determined by adding the main focus abnormality level and the sub-focus abnormality level is higher than the focus reference level. If it is large, the target image can be determined as an out-of-focus image.

According to an embodiment of the present disclosure, the IP wall controller may determine the main focus abnormality level by summing the difference between the measured luminance value compared to the lowest luminance value and the measured contrast value compared to the maximum contrast value for the main area. .

According to an embodiment of the present disclosure, the IP wall controller may obtain size and arrangement information of a plurality of displays constituting a video wall and determine a focus reference level using the size and arrangement information.

In step 507, the IP wall controller 140 transmits a list of out-of-focus images and focus adjustment information to the network display server. The IP wall controller 140 can inform the monitor of a focus abnormality state. To this end, the IP wall controller 140 may transmit a list of extracted out-of-focus images and focus adjustment information commanding focus adjustment to the network display server 130.

In response, the network display server 130 may transmit a list to a remote control device that remotely controls the display of the video wall and transmit focus adjustment information to the image providing device. According to an embodiment of the present disclosure, the network display server 130 receives a focus correction image according to focus adjustment information from an image providing device, and sends a comparison image that simultaneously displays the out-of-focus image and the focus correction image to a remote control device. You can transmit, add a highlight to the border of the focus correction video, and output the focus correction video with the highlight added to the video wall.

Methods according to embodiments described in the claims or specification of the present disclosure may be implemented in the form of hardware, software, or a combination of hardware and software. The method according to the embodiment may be implemented in the form of program instructions that can be executed through various computer means and recorded on a computer-readable medium, and may be implemented as a computer program combined with hardware and stored in a computer-readable recording medium.

When implemented as software, a computer-readable storage medium that stores one or more programs (software modules) may be provided. One or more programs stored in a computer-readable storage medium are configured to be executable by one or more processors in an electronic device (configured for execution). One or more programs include instructions that cause the electronic device to execute methods according to embodiments described in the claims or specification of the present disclosure.

These programs (software modules, software) may include random access memory, non-volatile memory, including flash memory, read only memory (ROM), and electrically erasable programmable ROM. (electrically erasable programmable read only memory, EEPROM), magnetic disc storage device, compact disc-ROM (CD-ROM), digital versatile discs (DVDs), or other types of disk storage. It can be stored in an optical storage device or magnetic cassette. Alternatively, it may be stored in a memory consisting of a combination of some or all of these. Additionally, multiple configuration memories may be included.

In addition, the program may be distributed through a communication network such as the Internet, an intranet, a local area network (LAN), a wide area network (WAN), or a storage area network (SAN), or a combination thereof. It may be stored on an attachable storage device that is accessible. This storage device can be connected to a device performing an embodiment of the present disclosure through an external port. Additionally, a separate storage device on a communication network may be connected to the device performing an embodiment of the present disclosure.

In the specific embodiments of the present disclosure described above, elements included in the disclosure are expressed in singular or plural numbers depending on the specific embodiment presented. However, singular or plural expressions are selected to suit the presented situation for convenience of explanation, and the present disclosure is not limited to singular or plural components, and even components expressed in plural may be composed of singular or singular. Even expressed components may be composed of plural elements.

Meanwhile, in the detailed description of the present disclosure, specific embodiments have been described, but of course, various modifications are possible without departing from the scope of the present disclosure. Therefore, the scope of the present disclosure should not be limited to the described embodiments, but should be determined not only by the scope of the patent claims described later, but also by the scope of this patent claim and equivalents.

110 video wall 120 video provision device
130 Network Display Server
140 IP Wall Controllers 150 Remote Control Units
160 network 210 memory
220 Processor 230 Communication Department
240 input/output interface 250 display unit
410 Contrast 460 Luminance
411 First Difference 461 Second Difference

Claims (5)

An image providing device that supplies images captured in the surveillance area;
a network display server that decodes the video and outputs it to a plurality of displays;
a video wall that displays output images on a screen using the plurality of displays;
An IP wall controller connected to the network display server and controlling the focus of the output image displayed on the video wall,
The IP wall controller is,
Obtaining a focus confirmation command for a plurality of images,
In response to obtaining the focus confirmation command, request measurement of focus data and receive the focus data,
Using the focus data, extract an out-of-focus image that requires focus adjustment from among the plurality of images, and generate focus adjustment information that commands focus adjustment for the out-of-focus image,
Transmitting the list of out-of-focus images and the focus adjustment information to the network display server,
The network display server transmits the list to a remote control device that remotely controls the display of the video wall, and transmits the focus adjustment information to the image providing device.
In claim 1,
The IP wall controller is,
Select a target image from the plurality of images,
Dividing the area of the target image into a main area and a sub area,
Determining a main focus abnormality level using first contrast data for the main area,
Determining a sub-focus abnormality level using second contrast data for the sub-area,
An IP video wall system that determines the target image as the out-of-focus image when the out-of-focus level determined by adding the main out-of-focus level and the out-of-focus level is greater than the focus reference level.
In claim 2,
The IP wall controller is,
An IP video wall system that determines the main focus abnormality level by summing the difference between the measured luminance value compared to the lowest luminance value and the measured contrast value compared to the maximum contrast value for the main area.
In claim 2,
The IP wall controller is,
Obtaining size and arrangement information of a plurality of displays constituting the video wall,
An IP video wall system that determines the focus reference level using the size and placement information.
In claim 1,
The network display server,
Receiving a focus-corrected image according to the focus adjustment information from the image providing device,
Transmitting a comparison image simultaneously displaying the focus abnormality image and the focus correction image to the remote control device,
An IP video wall system that adds a highlight to the border of the focus correction image and outputs the focus correction image with the highlight added to the video wall.

Images