CN101923825A - Regional correction method for planar lighting device - Google Patents

Abstract

The invention discloses a regional correction method for a planar lighting device, which comprises the following steps: A1: illuminating the planar lighting device according to primary colors, and respectively acquiring the regional image of each primary color by using an imaging device; A2: analyzing and processing the image information to obtain the regional average luminance information and/or regional average chromatic information; A3: obtaining the regional correction coefficient according to the preset target parameter and the regional average luminance information and/or regional average chromatic information; and A4: downloading and storing the regional correction coefficient into a storage device.

Description

A kind of regional correction method for planar lighting device

Technical field

The present invention relates to planar lighting device alignment technique field, in particular a kind of regional correction method for planar lighting device.

Background technology

Along with the extensive application of various public information medium, people can select different display mediums to carry out information-bearing, turn over billboard, PDP video wall etc. as neon bulb, print advertisements plate, three faces.But all there are defectives such as the limited or brightness of displaying contents and effect be undesirable in above-mentioned display medium.Along with the user constantly promotes for the performance requirement of display device at aspects such as color, brightness, video effect, reliability, life-spans of the large screen display medium outside indoor, require display system can demonstrate the true colour painting face that approaches natural colour, and has higher display brightness, make display system no matter by day or evening, fine or cloudy, can both allow spectators be clear that its displaying contents, can regulate the video frequency program of its demonstration according to the variation of outside natural light intensity automatically, and have higher reliability and be easy to maintenance.

Compare with other display medium, LED display has significant advantage, can satisfy above-mentioned requirements well.But, because high material cost and the manufacturing cost of LED display, make prestige in a lot of application scenarios and step back.

Mainly by the cost structure of LED light emitting diode, LED light emitting diode cost accounts for about 60% of LED display cost to the cost of LED display.Therefore the material cost that reduces the LED light emitting diode becomes the key that reduces the LED display cost.Mainly by gear (being wavelength and brightness range) decision, gear is wide more for the price of the LED light emitting diode of common same brand, and LED light emitting diode beam split color separation screening requires ground, thereby price is low more, otherwise gear is narrow more, and price is high more.Therefore, use the LED light emitting diode of broad gear, can effectively reduce the cost of LED display, LED display can be applied in more field.

The problem that the LED light emitting diode of use broad gear brings is the picture consistency problem that need solve display screen preferably, promptly needs LED display is carried out the pixel pointwise correction, comprises colourity adjustment and brightness adjustment.

At present, relevant producer has developed the LED display that possesses the pointwise correction function as shown in Figure 1 and has shown corrective system, this system adopts the imaging device 2 of specialty, light gun for example, cameras etc. obtain the picture of LED display 1, after data handling machine 3 carries out software analysis, decomposite the brightness and the colorimetric parameter of each pixel, go out offset through computed in software again, form correction file, and download to transmission card 4, when each start-up system, by upper computer software, be sent to 5 pairs of LED display of scan control card and proofread and correct, realize the brightness of each pixel and the correction of colourity.

Its bearing calibration is:

(1) use professional optical device to obtain the brightness and the colorimetric parameter of module/casing/screen body;

(2) use professional software to carry out analytical calculation, obtain corrected value, form correction file;

(3) download in transmission card or the receiving card by order wire, and be saved to the I2C chip;

When (4) scanning card powers on, read the correction file in the I2C chip; The scanning card control chip carries out brightness and chromaticity correction by corresponding correcting algorithm to each pixel.

As can be seen from Figure 1, its imaging device 2 is placed on optimal position, promptly be right against the center of display screen, obviously, be difficult to satisfy such image-forming condition in the middle of the application, because most screen positions are higher, all be in the high-altitude of tens meters even tens meters, be difficult to imaging device is placed the geometric center position in its dead ahead.

And comparatively general situation is the image-forming condition shown in Fig. 2, imaging device, for example camera is positioned at the height place of tens meters of the lower right of display screen or lower lefts, display screen is taken pictures, the photo that obtains like this is inevitable as shown in Figure 3, be the warp image of non-regular borders, and for how using the image parameter that obtains in this case to proofread and correct, prior art does not relate to then.

Therefore, there is defective in prior art, needs to improve.

Summary of the invention

Technical matters to be solved by this invention is at the deficiencies in the prior art, and a kind of regional correction method for planar lighting device is provided.

Technical scheme of the present invention is as follows:

A kind of regional correction method of planar lighting device comprises:

A1: divide primary colours to light described planar lighting device, the image information of using imaging device to gather each primary colours respectively;

A2: the described image information of analyzing and processing, choose at least one zone, obtain the zone leveling information in described zone; Wherein, described zone leveling information is zone leveling monochrome information and/or zone leveling chrominance information;

A3:, obtain the regional correction coefficient according to pre-seting target component and described zone leveling information;

A4: memory storage is downloaded and/or be stored in to described regional correction coefficient.

Be applied to example, described regional correction method, further comprising the steps of after the described steps A 4: as to use the video data of the described planar lighting device of described regional correction coefficient correction, use the video data after proofreading and correct to drive described planar lighting device.

Be applied to above-mentioned each example, described regional correction method, described minute primary colours are lighted the method for operating of described planar lighting device and are: it is red, green, blue that described planar lighting device is shown.

Be applied to above-mentioned each example, described regional correction method, described steps A 2 may further comprise the steps:

A21: several regions cut-point and the several boundary point of determining described planar lighting device;

A22: the pixel of lighting in the described planar lighting device corresponding each described cut-point and described frontier point, gather dot matrix image, adopt a certain pixel of being lighted in the described dot matrix image for reference to initial point, obtain the relative coordinate of each pixel of being lighted in the described dot matrix image;

A23:, obtain to cut apart zone leveling monochrome information and/or the zone leveling chrominance information that obtains by described Region Segmentation point and described frontier point according to the relative coordinate of each described pixel.

Be applied to example, described regional correction method, described frontier point comprises the summit of described planar lighting device.Preferably, it is described with reference to initial point adopting arbitrary described summit.

Be applied to above-mentioned each relevant example, described regional correction method, described frontier point comprise the border mid point of described planar lighting device.

Be applied to above-mentioned each relevant example, described regional correction method, described planar lighting device adopts the LED display with regular borders.

Be applied to example, described regional correction method, described cut-point and frontier point are divided into some rectangles with described LED display; Perhaps, described regional correction method, described cut-point and frontier point are divided into some triangles with described LED display.

Adopt such scheme, the present invention obtains this regional average optical parameter by the subregion, carries out regional correction at this zone, thereby has improved the whole calibration result of the regional correction effect and the LED display of LED display.

Description of drawings

Fig. 1 is the prior art system structural representation;

Fig. 2 is that the position of camera and display screen concerns synoptic diagram in the existing alignment technique;

Fig. 3 takes the photo shape synoptic diagram that obtains in the existing alignment technique;

Fig. 4 is the synoptic diagram of Flame Image Process in the inventive method.

Embodiment

Below in conjunction with the drawings and specific embodiments, the present invention is described in detail.

Embodiment 1

Present embodiment provides a kind of regional correction method for planar lighting device, is example with the LED display, and this method mainly may further comprise the steps:

A1: share out bonus, green, blue primary lights LED display, uses for example camera of imaging device, video camera etc. are gathered the area image of each primary colours respectively; Can certainly select to use the image under the imaging device collection display screen white balance state.

A2: the image information that the step obtains on the analyzing and processing obtains zone leveling monochrome information and/or zone leveling chrominance information; For example obtain each regional RGB half-tone information, calculate average luminance information and zone leveling chrominance information according to half-tone information.

A3: obtain the regional correction coefficient according to pre-seting target component and described zone leveling monochrome information and/or zone leveling chrominance information, after system building finishes, target component is set in system, and the result parameter after promptly proofreading and correct can be provided with a plurality of target components; Calculate the correction coefficient that obtains the zone according to above-mentioned zone average luminance information and/or zone leveling chrominance information then, for example can adopt methods such as the method for making up the difference, counting backward technique, index method, integral method, three primary colours tristimulus values method to calculate, for instance, it is 7500cd that target white brightness parameter is set, and the average white brightness of current region of actual measurement is 8000cd, current brightness 7500cd can be obtained by making difference, also current brightness the target white brightness can be obtained by multiply by a fixed numbers; This fixed numbers is described correction coefficient.

A4: described regional correction coefficient storage in memory storage, perhaps, is downloaded described regional correction coefficient and is stored in memory storage, for example can download to main frame, also can download in the storage chip of scanning card etc.

An example is, after steps A 4, uses the video data of the described planar lighting device of described regional correction coefficient correction, uses the video data after proofreading and correct to drive described planar lighting device, thereby realized the regional correction function.On this basis, just can realize the integral body of LED display is proofreaied and correct, and obtain better calibration result.

Display screen in the present embodiment also can be other forms of display screen, is not limited only to LED display.

Embodiment 2

Present embodiment provides the concrete operation method of steps A 2 described in a kind of embodiment 1, may further comprise the steps:

A21: Region Segmentation point and the frontier point of determining described LED display, as shown in Figure 4, it is a rectangle LED display, four frontier points determining this display screen are rectangle summit A, B, C, D, determine the Region Segmentation point, comprise all the other cut-points on A1, B1, C1, D1 and AB, AD, BC, the CD limit etc., whole 30 points shown in circle among Fig. 4; Need to prove except the whole points shown in the circle, to also have between each circle or have many pixels, these pixels are not shown in Fig. 4.

A22: the control LED display is lighted the pixel of each described cut-point and described frontier point in the described planar lighting device, display screen presents the image of a formation, the image of 5 * 6 some formation as shown in Figure 4, use camera to gather this dot matrix image, adopting a certain pixel of being lighted in the described dot matrix image is with reference to initial point, obtain the relative coordinate of each pixel of being lighted in the described dot matrix image, it for example is example with Fig. 4, can adopt the A point to be true origin, promptly with reference to initial point, at this moment, with reference to the A point, analyze successively and obtain the coordinate data that all the other each points are ordered with respect to A; Perhaps, be true origin with the A1 point, analyze successively and all put the coordinate data of ordering with respect to A1.Preferably, described frontier point comprises the summit of described planar lighting device, and at this moment, it is described with reference to initial point can adopting arbitrary described summit, is example with Fig. 4, and can adopt A point, B point, C point or D point is with reference to initial point.And for example, described frontier point comprises the border mid point of described planar lighting device, and for example, planar lighting device has 5 limits, and then described frontier point comprises the mid point on each bar limit.

A23: according to the relative coordinate of each the described pixel that obtained in the last step, zone leveling monochrome information and/or the zone leveling chrominance information that obtains cut apart in acquisition by described Region Segmentation point and described frontier point, after for example obtaining the pixel relative coordinate information of position of summit and cut-point, can obtain for zone leveling monochrome information and/or zone leveling chrominance information to the rectangle of angle point with 2 of A, A1, the zone leveling monochrome information and/or the zone leveling chrominance information of all the other each rectangular areas also can obtain.So just realize on the distortion photo, determining the average luminance information and/or the zone leveling chrominance information in zone in the display screen, solved unavoidable distortion photo handling problem in the trimming process.

Preferably, above-mentioned LED display is the LED display of regular borders, and another example, above-mentioned frontier point can also comprise the border mid point on each bar limit of LED display.

Preferably, use above-mentioned cut-point and frontier point that described LED display is divided into some rectangles.Perhaps, use above-mentioned cut-point and frontier point that described LED display is divided into some triangles.

Should be understood that, for those of ordinary skills, can be improved according to the above description or conversion, and all these improvement and conversion all should belong to the protection domain of claims of the present invention.

Claims (10)

1. the regional correction method of a planar lighting device is characterized in that, comprising:

A1: divide primary colours to light described planar lighting device, the image information of using imaging device to gather each primary colours respectively;

A2: the described image information of analyzing and processing, choose at least one zone, obtain the zone leveling information in described zone; Wherein, described zone leveling information is zone leveling monochrome information and/or zone leveling chrominance information;

A3:, obtain the regional correction coefficient according to pre-seting target component and described zone leveling information;

A4: with described regional correction coefficient storage in memory storage.

2. regional correction method according to claim 1, it is characterized in that, also carry out following steps after the described steps A 4: use the video data of the described planar lighting device of described regional correction coefficient correction, use the video data after proofreading and correct to drive described planar lighting device.

3. regional correction method according to claim 1 and 2 is characterized in that, described minute primary colours are lighted the method for operating of described planar lighting device and are: it is red, green, blue that described planar lighting device is shown.

4. regional correction method according to claim 1 and 2 is characterized in that, described steps A 2 may further comprise the steps:

A21: several regions cut-point and the several boundary point of determining described planar lighting device;

A22: the pixel of lighting in the described planar lighting device corresponding each described cut-point and described frontier point, gather dot matrix image, adopt a certain pixel of being lighted in the described dot matrix image for reference to initial point, obtain the relative coordinate of each pixel of being lighted in the described dot matrix image;

A23:, obtain to cut apart zone leveling monochrome information and/or the zone leveling chrominance information that obtains by described Region Segmentation point and described frontier point according to the relative coordinate of each described pixel.

5. regional correction method according to claim 4 is characterized in that described frontier point comprises the summit of described planar lighting device.

6. regional correction method according to claim 5 is characterized in that, it is described with reference to initial point adopting arbitrary described summit.

7. regional correction method according to claim 4 is characterized in that, described frontier point comprises the border mid point of described planar lighting device.

8. regional correction method according to claim 4 is characterized in that, described planar lighting device adopts the LED display with regular borders.

9. regional correction method according to claim 8 is characterized in that described cut-point and frontier point are divided into some rectangles with described LED display.

10. regional correction method according to claim 8 is characterized in that described cut-point and frontier point are divided into some triangles with described LED display.

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