JP4030448B2 - Network image adjustment system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a network video adjustment system, and more specifically, the video of a video display device can be adjusted from a remote location via a network, and a single large screen is configured by combining a plurality of video display devices. For example, the present invention relates to a network video adjustment system that enables video adjustment of a video wall or the like to be performed from a remote location.
[0002]
[Prior art]
In recent years, video display devices such as projection devices using liquid crystal or DLP (Digital Light Processing) have been used in conferences and lectures, and have been used as large-screen video display devices for announcements and exhibitions. It is also provided as a video display system called a video wall in which a plurality of video display devices are installed in a matrix to form one large screen. These video display devices generally have a different color appearance and feeling depending on the environment of installation, such as differences in device characteristics due to component variations and aging, lighting conditions, and the angle and distance when viewing the video display device. Therefore, when the video display device is replaced or the installation location of the video display device is changed, it is necessary to adjust the video. Therefore, the video display apparatus can adjust the hue, luminance, contrast, and the like by the user. As this image adjustment method, a method of adjusting visually by actually projecting a test pattern or the like using an OSD (On Screen Display) menu is generally used. Connect to a PC terminal using a serial port (RS-232C terminal) and perform video adjustment by one-to-one remote operation, or switch the ID of the video display device to be operated and sequentially adjust video by one-to-many remote operation There is also a way to do.
[0003]
In the prior art, an adjustment system for operating a video display device that forms a video wall with a plurality of video display devices via a network has also been proposed. By changing the connection method between a video display device and a computer having a GUI (Graphical User Interface) screen from a serial port connection with an ID to a network connection, each video display device can be selected using an IP address. It is possible to adjust the image from a remote place by shooting the displayed screen with a digital camera etc. from a remote place where the image display device can be seen, and transmitting the image taken over the Internet etc. (For example, refer to Patent Document 1).
[0004]
[Patent Document 1]
JP 2002-229769 A (page 2-7, FIG. 7)
[0005]
[Problems to be solved by the invention]
In the prior art, when adjusting the video on the video display device, the adjuster adjusts while visually checking the projected video, or transfers the projected video by some method in a remote place There was a need. In other words, even if remote control is possible, if the displayed image is directly visible, or if adjustment is performed in a remote location where the image cannot be directly viewed, the projected image is There was a need for a device that could take a picture and send it to a remote location for confirmation.
[0006]
Also, when adjusting the video of the video display device that constitutes the video wall, the conventional technology adjusts the video of the corresponding video display device individually based on the ID assigned to each divided video display device. However, the time for adjustment increases more than the number of times the screen is divided. For example, in the case of a 3 × 3 video wall, since adjustments must be made for each screen, 9 times or more of labor and time are required.
[0007]
In view of these circumstances, the present invention provides a network image adjustment system that can display and adjust an image to be adjusted on a terminal device operated by an adjuster from a remote location without requiring special equipment. For the purpose.
[0008]
Also, the video wall video can be handled as a screen of a single video display device, displayed on the display unit of the terminal device, and each video display device can be adjusted from a remote location without switching the screen. An object is to provide a network image adjustment system.
[0009]
[Means for Solving the Problems]
The present invention provides an adjustment firmware that adjusts an image to be projected based on set adjustment data, a Web server that drives the adjustment firmware by CGI, and a drive that is driven by the adjustment firmware or the Web server A network video adjustment system in which a plurality of video display devices having a Web client and a terminal device having a Web browser that can access the Web server are connected via a network, wherein the Web server uses the adjustment firmware The adjusted projection target image can be referred to from the Web browser, the adjustment data for change instructed by the user from the Web browser is acquired, the adjustment firmware is driven, and the acquired change image is acquired. Adjust the projection target image based on the adjustment data. See possible and to, further, The terminal device One of the video display devices is designated as a master video display device, and the web client driven by the web server of the designated master video display device designates another video display device as a slave video display device. The projection target image adjusted by the adjustment firmware of the slave video display device is acquired, and the Web server of the master video display device adjusts the projection target adjusted by the adjustment firmware of the master video display device. And the image to be projected of the slave video display device acquired by the Web client can be referred to from the Web browser, and the master video display device and the slave video specified by the user from the Web browser Obtain adjustment data for changing the display device, and And moving the adjustment data for the change to the acquired slave video display device, characterized in that it sent to each slave video display device.
[0012]
Further, the video display device is characterized in that each video display device shares and displays the divided video and constitutes a video wall that is displayed as one video before division by all the video display devices.
[0013]
Further, the master video display device combines the projection target video adjusted by the adjustment firmware of the master video display device and the projection target video adjusted by the adjustment firmware of the slave video display device. It can be referred to from the Web browser as one video.
[0014]
In addition, the terminal device is characterized in that a video display device responsible for a video in a substantially central portion is designated as a master video display device.
[0015]
The Web server can also refer to the set adjustment data when the projection target image adjusted by the adjustment firmware can be referred from the Web browser. .
[0016]
In addition, the Web server provides a GUI for referring to the projection target image adjusted by the adjustment firmware and the set adjustment data, or inputting change adjustment data. It is characterized by having a Web page.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is an overall configuration diagram of an embodiment of a network video adjustment system to which the present invention is applied. The network video adjustment system includes video display devices 1 to 9 and a terminal device 10 used as an interface by the coordinator. In this embodiment, a local LAN or the Internet is used as the network 20.
[0018]
FIG. 2 is a functional relation diagram of an embodiment of a network video adjustment system to which the present invention is applied. The terminal device 10 used by the coordinator has a Web browser 11 that displays video and the like on a screen 12. The video display devices 1 to 9 have Web servers 1b to 9b and main programs 1a to 9a including adjustment firmware for adjusting video so that each of them can function as a single Web server. . The main programs 1a to 9a control the entire video display device not related to the network, like the video display device of the prior art, such as video adjustment, control of each display device, and lamp control.
[0019]
In this network video adjustment system, an HTTP (Hyper Text Transfer Protocol) request is used by the coordinator to control the video display devices 1 to 9 from the terminal device 10 via the network 20. HTTP is a protocol for transferring hypertext and moving image data through a network. For example, the terminal device 10 requests a processing request for adjusting a video to the video display device 1 as an HTTP request. Then, the Web server 1b in the video display device 1 receives the request and passes information such as adjustment items and parameters included in the request to the adjustment firmware in the main program 1a, thereby allowing the video display device 1 to The image is adjusted. Further, the Web browser 11 can acquire the adjustment value of the current video of the video display device 1 by an HTTP request.
[0020]
A web page for providing a GUI for adjustment is set in the web server 1b, and the coordinator can use the GUI provided by the web server 1b from the web browser 11 on the terminal device 10. it can.
[0021]
The adjustment firmware in the video display device 1 has the following functions.
(1) For video adjustment, it holds several test patterns and provides video of the test pattern specified by the terminal device 10 through a CGI (Common Gateway Interface) that is an interface for a Web server to call an external program. And the test pattern can be displayed on the Web browser of the terminal device 10.
(2) Current process adjustment value (a parameter that is kept secret to the user and adjusts the variation of the analog part of the display device, etc. and approaches a certain standard) and a user adjustment value (open to the user) Two parameters, which can be confirmed on the OSD menu and the like, and can be adjusted by the user by adjusting this parameter, and display devices (liquid crystal, DLP, etc. (reflection angle if DLP) , Black level and other device capability values)) and projection lamp brightness and other parameters (brightness and luminance capability values) (hereinafter collectively referred to as “image adjustment parameters”) A function that simulates the current video adjustment content.
(3) A test pattern that has been subjected to image processing with respect to the test pattern specified in the test pattern held for video adjustment, taking into account the current video adjustment content that was simulated. A function that artificially generates the video.
[0022]
The coordinator who is a user uses the Web browser 11 of the terminal device 10 to display the pseudo-generated video of (3) above on the screen 12 of the terminal device 10 as a test pattern video of the video display device 1. Can be displayed. This video simulates the video after the video data of the original test pattern is input to the video display device and adjusted using the set video adjustment parameters, etc. The video can be adjusted by checking the video displayed on the screen 12 of the terminal device 10 instead of the video currently projected by the display device.
[0023]
FIG. 3 is a diagram for explaining a processing procedure for displaying a test pattern adjusted with parameters for video adjustment on the screen of the terminal device. Hereinafter, a case where a projector is used as the video display device will be described. . First, in FIG. 3A, when the user selects a type of test pattern to be displayed from the Web browser 11, the Web browser 11 transmits the type of test pattern selected by the user to the projector 1 by an HTTP request. . The Web server 1b of the projector 1 receives the test pattern number “n” and instructs the main program 1a to select the number n as an adjustment target from the built-in test patterns.
[0024]
In FIG. 3B, the instructed main program 1a simulates the video adjustment content for the test pattern n selected by the user based on the set video adjustment parameters. Image processing is performed on the test pattern n taking into account the video adjustment content obtained by the simulation, and video data of the adjusted test pattern n is generated. The Web server 1b receives video data from the main program 1a and provides video in the form of a Web page. The web page is displayed on the screen 12 by the web browser 11 operated by the user. In this way, a simulated video image of the test pattern n is displayed on the terminal device operated by the user.
[0025]
Further, every time the user makes adjustments from the web browser 11, that is, every time an HTTP request for video adjustment is transmitted from the web browser 11, the main program 1a performs simulation and image processing, thereby obtaining image data. Since updating and automatically reloading the web page, the user can confirm the result of the adjustment in the web browser 11 almost in real time.
[0026]
FIG. 4 is a schematic diagram of video adjustment event reception requested by the terminal device, and uses CGI as an interface for executing an HTTP request by a projector. The Web browser 11 of the terminal device 10 transmits the name of the operation target in the projector and the value of the operation parameter by CGI. When the Web server 1b receives the request by CGI, the Web server 1b generates an event for the main program 1a based on the received operation target name and operation parameter, and passes the event to the main program 1a through inter-process communication. Start operation. For example, an event is executed in which the luminance parameter of the DLP is incremented by 1 or the currently set gamma table A is switched to the gamma table B. In FIG. 4, an instruction to switch to the gamma table B (“send“ GAMR 2 ””) is sent from the Web browser 11 to the Web server 1b, and the Web server 1b sends the instruction to the event (“RGB gamma event“ B "") Shows an operation to be executed by the main program 1a by inter-process communication. The main program 1a causes the image control ASIC (Application Specific Integrated Circuit) to change the gamma table.
[0027]
FIG. 5 is a software module diagram of another embodiment of the projector to which the present invention is applied, and is an example in which the present invention is applied to a DLP front projector. A terminal device (hereinafter also referred to as a “PC terminal”) 10 has a Web browser 11 that displays on a screen 12, and the projectors 1 and 2 each include a main program 1 a including adjustment firmware, In addition to 2a and web servers 1b and 2b, one web client 1c and 2c is installed.
[0028]
The Web servers 1b and 2b exchange data with the main programs 1a and 2a through inter-process communication, respectively. The Web clients 1c and 2c call (drive) from the main programs 1a and 2a or the Web servers 1b and 2b, respectively. It is possible to access the Web server of any projector using an HTTP request. The user can directly connect to all projectors such as the projector 1 and the projector 2 by using the Web browser 11, or can access the Web server of another projector through the Web client of one projector. The Web client 1c of the projector 1 can perform the same operation that the terminal device 10 can perform on the projector 1 by transmitting an HTTP request to another projector.
[0029]
FIG. 6 is a diagram for explaining the relationship between the master projector and the slave projector, and shows the terminal device 10 and the projectors 1 to 9. In FIG. 6A, one projector is selected from among a plurality of projectors as a “master”, and another projector that the coordinator does not need to be aware of is designated as a “slave”. Only the master projector 1 needs to be operated. In other words, when the coordinator transmits HTTP requests for various controls from the Web browser 11 to the master projector 1, the master projector 1 analyzes the content of the request. The process up to this point is the same as when there is only one projector. Subsequently, the master projector 1 performs control similar to the HTTP request transmitted from the Web browser 11 to the slave projectors 2 to 9. Send an HTTP request. By this method, the user who is the coordinator can operate the entire projector by operating only one master projector 1. That is, a plurality of projectors can be operated as if they were one projector.
[0030]
FIG. 6B is a diagram for explaining an operation in which an HTTP request for video adjustment is transmitted from the terminal device 10 to the slave projectors 2 to 9. The web browser 11 of the terminal device 10 transmits to the master projector 1 a video adjustment change data instructed by the user, for example, an HTTP request to switch the gamma table to the gamma table B. When receiving the request, the master projector 1 switches the gamma table currently set in the projector to the gamma table B, and transmits the same request to all the slave projectors 2 to 9. Each slave projector that receives the request executes the instructed request. In this case, each slave projector switches the gamma table currently set for each slave projector to gamma table B.
[0031]
FIG. 7 is a projector assignment diagram of an embodiment in which the present invention is applied to a video wall, showing nine projectors 1 to 9 and nine divided projection screens 1d to 9d corresponding to each projector. ing. Each projector divides and projects one portion of the screen to be projected, such as a test pattern, and realizes a video wall that is one large screen by using nine divided projection screens.
[0032]
In this case, among the projectors 1 to 9 on the video wall, a projector that projects an image at or near the center, for example, the projector 1 is a master projector, and the projectors 2 to 9 are slave projectors. It is said. The terminal device 10 connects to the Web server 1b of the projector 1 and requests to become a “master” of the video wall. The Web client 1c of the projector 1 that has become the master connects to each Web server 1b of the projectors 2 to 9, and requests to become a “slave” of the video wall.
[0033]
Hereinafter, control between the master projector 1 and the slave projector 2 will be described as a representative example with reference to FIG. When the user makes an HTTP request to the master projector 1 from the Web browser 11, the projector 1 delivers the content received by the projector 1 to the Web server 2 b of the projector 2. This delivery is realized by the Web server 1b inside the projector 1 driving the Web client 1c inside the projector 1. The driven Web client 1 c sends an HTTP request to the Web server 2 b of the projector 2. With the above mechanism, the user can control all the slave projectors only by operating the one master projector.
[0034]
Further, in the video wall, the following processing is performed in order to synthesize and display the divided test patterns projected and shared by the plurality of projectors on the screen 12 of the terminal device 10. The master projector divides the built-in test pattern so as to correspond to the number of projectors, and determines the allocation for each projector. In addition, when requesting other projectors to become slaves, each projector directs which part of the divided built-in test pattern is in charge, and each projector assigns which part of the test pattern itself. Remember what you are in charge of. For example, the projector 8 in FIG. 7 takes a portion of the projection screen 8d on the screen, enlarges the portion in charge of the built-in test pattern, and uses the enlarged portion as a test pattern to show to the user. This test pattern expansion is performed for the parts in charge of the master and all the slave projectors.
[0035]
As described above, when the user transmits a request for displaying the selected test pattern from the Web browser 11 to the master projector, as in the case of one projector, the master projector is connected to all the other projectors. The same test pattern is selected to the slave projector, and a request for requesting an image of the portion in charge of the divided test pattern is transmitted.
[0036]
FIG. 8 is a diagram for explaining the operation of combining the divided videos and displaying them as one video using one embodiment to which the present invention is applied, for explaining the case where the image is divided into four. Shows a configuration example of a terminal device and four projectors. The master projector 1 and the slave projectors 2 to 4 that have received requests from the master projector 1 cut out and enlarge a part of the test pattern image in charge, and use the enlarged image as the test pattern. The master projector 1 transmits an HTTP request to the slave projectors 2 to 4 and collects images obtained by enlarging the divided test patterns from the slave projectors 2 to 4. The master projector 1 combines the collected test pattern image and the test pattern image in charge of the master projector 1 itself into a single test pattern image.
[0037]
The synthesized test pattern image is displayed as a Web page transmitted from the master projector 1 on the screen of the terminal device 10 operated by the user. The image of the test pattern becomes an image simulating the screen of the video wall, and the adjuster performs video adjustment of the entire video wall while looking at the image of the test pattern displayed on the screen 12 of the terminal device 10. Can do. Also at this time, if only one master projector is operated, an image of the test pattern of the entire video wall can be displayed on the terminal device.
[0038]
【The invention's effect】
According to the present invention, when video adjustment for installation or the like is performed, the video image projected by the video display device is displayed by simulating and displaying the video image to be adjusted on the terminal device being operated. You can adjust the image without viewing it. As a result, it is possible to save the trouble of the installation contractor going to the installation site, and maintenance from a remote service center or the like becomes possible.
[0039]
Also, the simulated video is displayed on a terminal device that operates as a video close to the actually projected video, enabling interactive remote operation.
[0040]
Further, no device other than the terminal device is required, and further, it can be realized by software, so that the cost of adding hardware can be suppressed. Since the Web browser operated by the user can use a standard Web browser capable of displaying an HTTP protocol (CGI) and images, man-hours for developing this portion of software and costs for distributing the developed software can be suppressed. . In addition, the user can easily adjust the video display device without a burden of learning a new Web browser operation method.
[0041]
Also, in the video wall, according to the conventional technology, the video display device to be adjusted is switched by the setting of the terminal device every time the operation is performed, or the trouble is reduced to one video device from all the terminal devices. However, since the master video display device controls the slave video display device, the user operates only one master video display device. By doing this, it becomes possible to operate all other slave video display devices.
[0042]
Further, in this case, since it is not necessary to change the Web browser of the terminal device exclusively for the video wall, the user can operate all the video display devices in exactly the same manner as when only one video display device is used. Thus, even in the case of a video wall, the user can easily adjust the video display device used for the video wall without the burden of learning a new Web browser operation method.
[0043]
Furthermore, even in the case of a video wall, the projected image can be displayed on the terminal device in the same way as when operating a single image display device. However, it is only necessary to perform video adjustment of a plurality of video display devices for displaying them from one terminal device.
[0044]
Furthermore, in the prior art, in the video wall, the video adjustment method for displaying the video of each partial part uniformly has become a bottleneck. However, each video display device in charge of the partial part performs a simulation. Since it is performed, it can be confirmed on the terminal device including those variations. This makes it easier to confirm the variation in image quality of each video display device during a video wall, and it is easy to adjust to an optimal state.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram of an embodiment of a network video adjustment system to which the present invention is applied.
FIG. 2 is a functional relationship diagram of an embodiment of a network video adjustment system to which the present invention is applied.
FIG. 3 is a diagram for explaining a processing procedure for displaying a test pattern adjusted by a video adjustment parameter or the like on a screen of a terminal device;
FIG. 4 is a schematic diagram of receiving an image adjustment event requested by a terminal device;
FIG. 5 is a software module diagram of another embodiment of a projector to which the present invention is applied.
FIG. 6 is a diagram for explaining a relationship between a master projector and a slave projector.
FIG. 7 is a projector assignment diagram of an embodiment in which the present invention is applied to a video wall.
FIG. 8 is a diagram for explaining an operation of combining divided images and displaying them as one image using an embodiment to which the present invention is applied.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1-9 ... Video display apparatus (projector), 1a-9a ... Main program, 1b-9b ... Web server, 1c-9c ... Web client, 1d-9d ... Projection screen, 10 ... Terminal device (PC terminal), 11 ... Web browser, 12 ... screen, 20 ... network.

Claims (6)

Adjustment firmware that adjusts the projection target image based on the set adjustment data, a Web server that drives the adjustment firmware by CGI, and a Web client that is driven by the adjustment firmware or the Web server A network video adjustment system in which a plurality of video display devices and a terminal device having a Web browser that can access the Web server are connected via a network, wherein the Web server is a projection adjusted by the adjustment firmware The target video can be referred from the Web browser, the adjustment data for change instructed by the user from the Web browser is acquired, the adjustment firmware is driven, and the acquired adjustment data is Adjust the image to be projected and refer to it again. And ability further, the terminal device, the Web client one designated as the master display device was driven by a Web server of the designated master video display device of the image display device, another video The display device is designated as a slave video display device, the projection target video adjusted by the adjustment firmware of the slave video display device is acquired, and the web server of the master video display device The projection target image adjusted by the adjustment firmware and the projection target image of the slave image display device acquired by the Web client can be referred to from the Web browser, and the user instructs from the Web browser. Adjustment data for changing the master video display device and the slave video display device Acquired, the Web client drives the network video adjustment system characterized by sending the adjustment data for the change to the acquired slave video display device, each of the slave video display device.   2. The video display device according to claim 1, wherein each video display device shares and displays the divided video, and constitutes a video wall that is displayed as one video before division by all the video display devices. The network image adjustment system described.   The master video display device combines the projection target video adjusted by the adjustment firmware of the master video display device and the projection target video adjusted by the adjustment firmware of the slave video display device into one The network video adjustment system according to claim 1 or 2, wherein the video can be referred to from the Web browser.   4. The network video adjustment system according to claim 1, wherein the terminal device designates a video display device that handles a video in a substantially central portion as a master video display device. 5.   The Web server can also refer to the set adjustment data when the projection target image adjusted by the adjustment firmware can be referred from the Web browser. The network image adjustment system according to any one of 1 to 4.   The Web server provides a Web page for providing a GUI for referring to the projection target image adjusted by the adjustment firmware and the set adjustment data, or for inputting change adjustment data. 6. The network image adjustment system according to claim 1, further comprising a network image adjustment system.

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