JP2006050255A - Large screen display system and its luminance correction method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a large screen display system capable of automatically executing the correction of uniformity of luminance in a large screen illuminated from a plurality of projectors. <P>SOLUTION: The large screen display system has a sensor camera 1 capable of imaging a large screen projected by a plurality of the projectors 3, a control unit 21, a pattern generating part 31 for generating a test pattern for executing the correction of luminance, and a video image output part 32 for outputting a video image in order to project the test pattern generated with the pattern generator. The control unit 21 recognizes the test pattern illuminated from each projector by obtaining luminance information of each test pattern imaged by the sensor camera 1, executes arithmetic processing of an adjustment amount of the luminance of each projector by using the luminance information of each test pattern, generates a light amount control signal for adjusting a light amount of each projector so that the luminance of the large screen on a screen becomes constant on the basis of the adjustment amount of the luminance of each projector, and adjusts the light amount of a light source 34 of each projector. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a large-screen display system that displays screens projected by a plurality of projectors, and a method for correcting the brightness of the entire projected large screen to be uniform, and in particular, in each large-screen display system, The present invention relates to a large screen display system capable of automatically adjusting the light amount when the light amounts of the light sources of the projectors differ, and a method for increasing the luminance uniformity of the entire projected large screen.

  Conventionally, in a large screen display system in which screens projected by multiple projectors are connected and displayed on a large screen, if the light quantity of the light source by each projector is different, the brightness of the large screen becomes non-uniform, and the uniformity of the entire screen Go down. Therefore, it is necessary to increase the uniformity of the entire screen. A method for correcting the luminance of the entire screen has already been proposed.

As a method of correcting the luminance of the large screen display system, the reference image projected by the projector is projected on the screen, and the reference image is captured by the image capturing unit. Then, it is converted into a digital image and stored in the memory of the image storage unit. A method has been proposed in which data is read from a memory of an image storage unit, and the corrected image data is output by correcting the image data while referring to a lookup table (see, for example, Patent Document 1).
JP 2000-350230 A

  In the above-described prior art, by correcting the image data and outputting the corrected image data, the color and the like change when the spectral characteristics obtained from the camera and the spectral characteristics irradiated from the projector are different. Therefore, in the large screen display system, it is necessary to increase the uniformity of the large screen image by changing only the light amount without making the color of the large screen image uneven.

  The present invention provides a large-screen display system and a large-screen display system brightness correction method that can easily or automatically correct brightness uniformity in a large screen irradiated from a plurality of projectors displayed on a screen. The purpose is to do.

  In order to solve the above-mentioned problems, the present invention provides a large screen connected by a test pattern irradiated from a plurality of projectors in a large screen display system that displays images irradiated from a plurality of projectors on a large screen on a screen. The image processing unit performs image processing from the luminance information of the screen imaged by the sensor camera, the result is calculated by the calculation processing unit, and the screen irradiated by each projector is displayed. Adjustment is made so that the light amount of the light source of each projector becomes an optimum light amount so that the luminance is uniform. Thereby, the brightness of the large screen displayed on the screen can be made uniform, and a brightness correction method for a large screen display system that can perform brightness correction easily or automatically can be provided.

  The present invention provides a sensor camera that can capture a large screen projected by a plurality of projectors, an image processing unit that captures an image from the sensor camera, and an arithmetic process that calculates a detection result detected by the image processing unit. And a light amount control unit for adjusting the light amount of the light source of the projector according to the result calculated by the arithmetic processing unit, and using a plurality of projectors, a plurality of projection screens are connected on a screen to form a large screen In the large screen display system for projecting, the light amount control unit adjusts the light amount of the light source of each projector to increase the uniformity of the luminance of the entire projected large screen.

  Further, the present invention provides a pattern generation unit that generates a test pattern for performing luminance correction and a video output that outputs a video for projecting the test pattern generated by the pattern generation unit in the large screen display system. The image processing unit captures a test pattern imaged by the sensor camera, associates each projector with each test pattern, and obtains luminance information of each test pattern. did.

  Further, according to the present invention, in the large screen display system, the light amount control unit is configured to perform calculation processing from the calculation processing unit based on the result obtained from the image processing unit, and adjust the light amount of each project. Features.

  In addition, according to the present invention, in the large screen display system, the large screen display system adjusts the light amount of the light source by each projector by the light amount control unit, and the luminance of the large screen on the screen becomes constant. Features.

  That is, the present invention calculates a sensor camera that can capture a large screen projected by a plurality of projectors, an image processing unit that captures an image from the sensor camera, and a detection result detected by the image processing unit. An arithmetic processing unit, and a light amount control unit that adjusts the light amount of the light source of the projector according to a result calculated by the arithmetic processing unit, and connects a plurality of projection screens on a screen by using a plurality of projectors. A large screen display system that projects a large screen, a pattern generation unit that generates a test pattern for performing luminance correction, and a video output unit that outputs a video to project the test pattern generated by the pattern generation unit The image processing unit obtains luminance information of each test pattern imaged by the sensor camera, thereby obtaining each project. The light intensity control unit recognizes the test pattern irradiated from the image processing unit, and uses the luminance information of each test pattern obtained from the image processing unit to calculate the light amount adjustment amount of each projector. Generates a light amount control signal for adjusting the light amount of each projector so that the brightness of the large screen on the screen is constant based on the adjustment amount of the light amount of each projector calculated by the arithmetic processing unit, By adjusting the amount of light, the brightness uniformity of the entire projected large screen was increased.

  According to the present invention, in a large screen display system that projects a large screen by connecting projection screens from a plurality of projectors on a screen, a large screen image on the screen is captured using a sensor camera, Luminance information for the entire large screen is obtained, and the amount of light from each projector is known. Further, since the amount of light of each projector can be recognized, the amount of light of each projector can be adjusted, and the luminance uniformity of the entire large screen can be increased.

  FIG. 1 is a diagram for explaining the configuration of an embodiment of a large screen display system of the present invention. In FIG. 1, the large screen display system includes a sensor camera 1, a large screen brightness control device 2, a plurality of projectors 3-1 to 3-4, and a screen 4.

  The sensor camera 1 is an imaging unit that can image the entire large screen projected on the screen 4 from a plurality of projectors.

  The large screen luminance control device 2 is a means for controlling the light amount of the light source of each projector 3 by analyzing the large screen imaged by the sensor camera 1, and has a control unit 21 and a luminance correction start button 22.

  The projectors 3-1 to 3-4 are means for projecting an image onto a predetermined area obtained by dividing the screen 4.

  The screen 4 is a screen that displays an image from the projector 3. Images from the projectors are projected onto a screen and connected to form a large screen.

  The projector 3 projects a pattern generation unit 31 that generates a test pattern at the time of luminance correction, and a test pattern generated by the pattern generation unit, and displays video for its own region from video data from a video source (not shown). A video output unit 32 that extracts and outputs, a light source control unit 33 that controls the light amount of the light source based on a light amount control signal from the large screen luminance control device 2, and a light source 34 are provided.

  The configuration of the large screen brightness control device 2 will be described with reference to FIG. The large screen brightness control device 2 includes a control unit 21 and a brightness correction start button 22. The control unit 21 includes an image processing unit 211, an arithmetic processing unit 212, and a light amount control unit 213. The correction start button 21 is a means for starting luminance correction. The image processing unit 211 is a unit that takes in each test pattern imaged by the sensor camera 1, associates each projector with each test pattern, and obtains luminance information of each test pattern. The arithmetic processing unit 212 is a means for calculating the luminance of the area on the large screen corresponding to each projector from the detection result detected by the image processing unit 211. The light quantity control unit 213 is a means for adjusting the light quantity of the light source of each projector according to the luminance of the area on the large screen corresponding to each projector calculated by the arithmetic processing unit 212, and outputs a light quantity control signal.

  In the large screen display system, two or more projection screens are arranged in the horizontal direction and / or two or more projection screens are arranged in the vertical direction.

  An example of a test pattern for correcting luminance will be described with reference to FIG. When the correction start button 22 is pressed by the operator, the pattern generation unit 31 generates a test pattern for luminance correction, the video output unit 32 outputs a test pattern image, and the test pattern is projected onto the screen 4. .

  The brightness correction test pattern TP shown in FIG. 3 is formed with a black border F on a white background in order to indicate a range projected by one projector 3. Such a test pattern is not limited to the one shown in the figure, but it is desirable that the test pattern can be recognized by one projector.

  After projecting the test pattern TP, the luminance correction of the large screen display system is started. First, the sensor camera 1 that can store the entire image projected by the plurality of projectors 3-1 to 3-4 is used. The test patterns TP projected from the projectors 3-1 to 3-4 are imaged on the screen to generate a projected image. Then, the sensor camera 1 receives the reflected light from the screen and images the projection screen.

  A large screen image obtained by connecting screens projected from a plurality of projectors displayed on the screen captured by the sensor camera 1 is captured by the image processing unit 211 of the large screen luminance control unit 21. The image processing unit 211 obtains luminance information from the large screen image on the screen 4 and performs image processing so that the test patterns of the projectors 3-1 to 3-4 can be recognized. Get light intensity information. The result of the image processing unit 211 is processed by the calculation processing unit 212. Here, the luminance information is, for example, numerical information from 0 to 255 if the sensor camera has 256 gradations.

  The arithmetic processing unit 212 calculates, for example, the average luminance of the area corresponding to each projector of the large screen image, and compares the average luminance of the entire large screen image to calculate the luminance level of the area, The amount for adjusting the light quantity of the projector is calculated. Here, the average luminance is calculated as 215 when the luminance of the test patterns of the projectors 3-1 to 3-4 is 200, 250, 180, and 230, respectively.

  The light amount control unit 213 creates a light amount control signal for the light source of each projector based on the brightness adjustment amount calculated by the arithmetic processing unit 212 and sends it to the light source control unit 33 of each projector 3-1 to 3-4.

  The light source control unit 33 of the projector 3 controls the light source 34 based on the light amount control signal, and increases the uniformity of a large screen image in which screens irradiated from a plurality of projectors are connected on the screen 4. Control of the light source 34 is control of a lamp voltage, for example.

  An example of the luminance correction operation in the large screen display system of the present invention will be described with reference to the flowchart of FIG. 4 and FIGS.

  To construct a large screen display system, at least two projectors 3 are prepared. At least one camera sensor 1 is required.

  First, the luminance correction start button 22 is pressed (S1), and the test pattern TP generated by the pattern generator 31 from each projector 3 is irradiated onto the screen 4 (S2).

  The large screen image irradiated on the screen 4 is taken into the image processing unit 31 by the sensor camera 1 (S3). Then, the luminance information of the test pattern TP is obtained by the image processing unit 211, and the luminance information of the test pattern TP irradiated from each projector is recognized (S4).

  Based on the result obtained from the image processing unit 211, the arithmetic processing unit 212 performs arithmetic processing to calculate the luminance adjustment amount information of each projector 3 (S5). The light quantity control unit 213 calculates a light quantity control signal for each projector based on the brightness adjustment amount information of each projector (S6), and sends it to the light source control unit 33 of each projector 3.

  In each projector 3, the light source control unit 33 controls the light source 34 based on the light amount control signal to adjust the light amount, thereby increasing the uniformity of the luminance of the large screen irradiated on the screen 4. Uniform brightness can be achieved over the entire large screen.

  In the above description, an example in which the sensor camera 1 and the large screen brightness control device 2 are provided separately from the projector 3 has been described. However, the sensor camera 1 and the large screen brightness control device 2 are provided integrally with either of the projectors 3. Can do. In this case, it is desirable to provide the sensor camera 1 at a position where a large screen image can be accurately captured.

  As described above, according to the present invention, when installing a large screen display system for displaying a large screen on a screen by connecting images projected from a plurality of projectors, each projector, a sensor camera, a large screen brightness control device, After installing the screen, simply pressing the brightness correction start button on the large screen brightness control device can automatically increase the uniformity of the brightness between each area of the large screen and obtain a uniform brightness across the entire large screen. be able to.

The figure explaining one Example of a structure of the large screen display system concerning this invention. The figure explaining the functional structure of the large screen brightness | luminance control apparatus which comprises the large screen display system concerning this invention. The figure which shows an example of the test pattern used by this invention. The figure explaining an example of the brightness | luminance correction method in the large screen display system of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Sensor camera, 2 ... Large screen brightness control apparatus, 21 ... Control part, 211 ... Image processing part, 212 ... Arithmetic processing part, 213 ... Light quantity control part, 22 ... Correction start button, 3 ... Projector, 31 ... Pattern generation 32: Video output unit, 33: Light source control unit, 34: Light source, 4 ... Screen

Claims (9)

A sensor camera that can capture a large screen projected by a plurality of projectors, an image processing unit that captures an image from the sensor camera, an arithmetic processing unit that calculates a detection result detected by the image processing unit, and A light amount control unit that adjusts the light amount of the light source of the projector according to the result calculated by the arithmetic processing unit, and uses a plurality of projectors to connect a plurality of projection screens on the screen to project a large screen. A screen display system,
The large-screen display system, wherein the light quantity control unit adjusts the light quantity of the light source of each projector to increase the luminance uniformity of the entire projected large screen. The large screen display system according to claim 1,
A pattern generation unit that generates a test pattern for performing luminance correction; and a video output unit that outputs a video for projecting the test pattern generated by the pattern generation unit, and the image processing unit includes: A large-screen display system that takes in each test pattern imaged by a sensor camera, associates each projector with each test pattern, and obtains luminance information of each test pattern. The large-screen display system according to claim 2,
The arithmetic processing unit performs arithmetic processing on the adjustment amount of the light amount of each projector using the luminance information of each test pattern obtained from the image processing unit,
The light quantity control unit generates a light quantity control signal for adjusting the light quantity of each projector based on the adjustment amount of the light quantity of each projector calculated by the arithmetic processing unit. In the large-screen display system according to claim 3,
2. A large screen display system in which two or more projection screens are arranged in the horizontal direction and / or the vertical direction. The large-screen display system according to any one of claims 1 to 4,
The large-screen display system, wherein the light amount control unit generates a light amount control signal so that the luminance of the large screen on the screen is constant. A sensor camera that can capture a large screen projected by a plurality of projectors, an image processing unit that captures an image from the sensor camera, an arithmetic processing unit that calculates a detection result detected by the image processing unit, and A light amount control unit that adjusts the light amount of the light source of the projector according to the result calculated by the arithmetic processing unit, and uses a plurality of projectors to connect a plurality of projection screens on the screen to project a large screen. A brightness correction method for a screen display system,
Generate a test pattern for brightness correction, project the test pattern on the screen, capture the test pattern on the screen with the sensor camera, obtain brightness information of the captured test pattern, and control the light quantity of each projector A luminance correction method for a large-screen display system, characterized by generating a signal. In the luminance correction method of the large-screen display system according to claim 6,
A luminance adjustment amount for each test pattern is calculated from the luminance information of the test pattern, a light amount control signal for each projector is generated based on the luminance adjustment amount, and a light source is controlled based on the light amount control signal. Brightness correction method for screen display system. In the luminance correction method of the large-screen display system according to claim 7,
A luminance correction method for a large-screen display system, wherein two or more projection screens are arranged in the horizontal direction and / or the vertical direction. The luminance correction method for a large-screen display system according to any one of claims 6 to 8,
A luminance correction method for a large-screen display system, characterized in that a light amount control signal is generated so that the luminance of the large screen on the screen is constant.

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