CN104769398A - Two-dimensional image data processing device, two-dimensional color luminance meter, method for processing two-dimensional image data, and program for processing two-dimensional image data - Google Patents

Abstract

In a two-dimensional image processing device, image data for expressing a two-dimensional image is acquired and two or more areas to be processed are set in the two-dimensional image in order to facilitate the separate evaluation of each of the two or more areas to be processed. One or more areas to be processed are selected from the two or more areas to be processed, and processing conditions to be applied to the selected one or more areas to be processed are set. One or both sets of color data and luminance data in the one or more areas to be processed are acquired from the image data and processed by application of the processing conditions.

Description

Two-dimensional image data treating apparatus, two-dimensional color nitometer, two-dimensional image data disposal route and two-dimensional image data handling procedure

Technical field

The present invention relates to two-dimensional image data treating apparatus, two-dimensional color nitometer, two-dimensional image data disposal route and two-dimensional image data handling procedure.

Background technology

In flat panel (Off ラ ッ ト パ ネ Le) display (FPD), there are liquid crystal display, plasma display, organic electroluminescent (EL) display etc.When evaluating these FPD, in order to evaluate the brightness disproportionation (む ら) in display frame or irregular colour, use two-dimensional color nitometer.When evaluating FPD when using two-dimensional color nitometer, there is following situation: when measuring FPD one by one and disposable measurement multiple stage FPD time.

When disposable measurement multiple stage FPD, multiple stage FPD is arranged on same level, and leaves arranged multiple stage FPD and arrange two-dimensional color nitometer.Then, image data generating (two-dimensional image data), this view data have taken the two dimensional image of multiple stage FPD for showing.Chroma data or brightness data is obtained from two-dimensional image data.Chroma data or brightness data are mapped to virtual color scale (Be like カ ラ ー ス ケ ー Le), the virtual color display of the Two dimensional Distribution of colourity or brightness is described.Also there is the situation of carrying out other process.In the past, the treatment conditions for the evaluation of estimate of the multiple stage FPD be taken in a two dimensional image were identical, performed identical process to the entirety of two-dimensional image data.Thus, when the treatment conditions such as making to be applied to multiple stage FPD are respectively different, need from two-dimensional image data, cut out part corresponding with multiple stage FPD respectively, from cut out multiple new two-dimensional image data each obtain chroma data or brightness data.So, by cutting two-dimensional image data accordingly with multiple stage FPD, thus intrinsic treatment conditions can be applied respectively, and chroma data or brightness data are processed.

In the two-dimensional color meter of patent documentation 1, disclose as follows: when of indication panel etc. of automobile measure in picture there is color different multiple region, about the multiple pixel datas forming two-dimensional image data, apply correction data by each pixel (each region).In the art, when there is different colors in a mensuration picture, the color comprised in pixel is differentiated, the correction data of application is switched by each pixel (each region), thus carry out suitable color evaluation, instead of evaluate by each region.

Prior art document

Patent documentation

Patent documentation 1: JP 2007-192729 publication

Summary of the invention

The problem that invention will solve

In two-dimensional color nitometer in the past, can not evaluate individually each of the multiple stage FPD photographed simultaneously, such as, need user cut the data in the FPD region in two dimensional image and evaluate individually, cost time.This problem also can produce when measured object is beyond FPD.

The object of the invention is to, make that evaluation is carried out individually to each of the measured object of more than 2 that photograph simultaneously and become easy.

For solving the means of problem

The present invention is towards two-dimensional image data treating apparatus.

In order to realize above-mentioned object, in the two-dimensional image data treating apparatus involved by a mode of the present invention, obtain view data.Two-dimensional image data performance two dimensional image.Two dimensional image is set to the processed region of more than 2.From the processed region of more than 2, at least 1 processed region do not selected and makes it remain, and selecting the processed region of more than 1.Setting is applied to the treatment conditions in the selected processed region of more than 1.Application treatment conditions, obtain the both sides of color data in the processed region more than 1 and brightness data or a side and process from two-dimensional image data.

The present invention is also towards two-dimensional color nitometer, two-dimensional image data disposal route and two-dimensional image data handling procedure.

The effect of invention

By any one of two-dimensional color nitometer, two-dimensional image data disposal route and the two-dimensional image data handling procedure involved by the two-dimensional image data treating apparatus involved by a mode of the present invention and other modes, evaluation is carried out separately to each of the measured objects of more than 2 and becomes easy.

Object of the present invention, feature, aspect and advantage beyond these and these are become clearly by following detailed description of the present invention when considering accompanying drawing in the lump.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of two-dimensional color nitometer.

Fig. 2 is the block scheme of photographic unit.

Fig. 3 is the block scheme of PC.

Fig. 4 is the block scheme of the content of the process representing two-dimensional image data.

Fig. 5 is the process flow diagram of the content of the process representing two-dimensional image data.

Fig. 6 is the schematic diagram of the example representing two-dimensional color nitometer.

Fig. 7 is the schematic diagram representing the state depicting two dimensional image.

Fig. 8 is the schematic diagram representing the state identifying background area and measured object region.

Fig. 9 is the schematic diagram representing the state that have selected 2 processed regions.

Figure 10 represents the schematic diagram to the state that slider bar operates.

Figure 11 is the schematic diagram of the state representing the circle depicting the position representing point.

Embodiment

(two-dimensional color nitometer)

The schematic diagram of Fig. 1 represents the desirable embodiment of two-dimensional color nitometer 1000.

The colourity of two-dimensional color nitometer 1000 pairs of measured objects 9000 shown in Fig. 1 and the both sides of brightness or a side measure.Two-dimensional color nitometer 1000 also can be measured the desired value of the color beyond colourity.Such as, two-dimensional color nitometer 1000 also can be measured form and aspect and chroma.

The virtual color display of two-dimensional color nitometer 1000 pairs of colourities and the both sides of brightness or the Two dimensional Distribution of a side is described, colourity on the position of point (ス Port ッ ト) and the both sides of brightness or the value of a side are described, and the enhancing display of colourity and the both sides of brightness or the inequality of a side is described.Two-dimensional color nitometer 1000 also can carry out other process.

The measured object 9000 of two-dimensional color nitometer 1000 more than 2 is gathered measurement, apply independent treatment conditions to each of the measured objects 9000 of more than 2, each making it possible to the measured object 9000 of more than 2 is evaluated individually.

Two-dimensional color nitometer 1000 possesses: photographic unit 1020, personal computer (PC) 1021 and USB (universal serial bus) (USB) cable 1022.Works beyond these works also can be added in two-dimensional color nitometer 1000.When photographic unit 1020 carries out radio communication with PC1021, also USB cable 1022 can be omitted.

When measuring, PC1021 sends control data via USB cable 1022 to photographic unit 1020, thus controls photographic unit 1020.Photographic unit 1020 is taken according to the control of PC1021, generates two-dimensional image data.Two dimensional image taken by the performance of this two-dimensional image data.Photographic unit 1020 sends two-dimensional image data via USB cable 1022 to PC1021.PC1021 processes two-dimensional image data.

(photographic unit)

The block scheme of Fig. 2 represents photographic unit 1020.

As shown in Figure 2, photographic unit 1020 possesses: pick-up lens 1040, colored filter 1041, shooting sensor 1042, analog/digital (A/D) converter 1043, timing generator 1044, optical filter drive division 1045, storer 1046, controller 1047, interface 1048 and housing 1049.Works beyond these works also can add in photographic unit 1020.Photographic unit 1020 does not possess display part and operating portion, is controlled by PC1021.

When taking, pick-up lens 1040 imports light into shooting sensor 1042 via colored filter 1041, imaging on the sensor cover of shooting sensor 1042.Colored filter 1041 makes the light transmission of arbitrary look of the first look, the second look and the 3rd look.It is desirable that colored filter 1041 is XYZ optical filters.

Controller 1047 controls timing generator 1044.Driving pulse is exported to shooting sensor 1042 by timing generator 1044.Shooting sensor 1042 generates the picture signal for showing the picture that sensor cover becomes according to driving pulse, and exports A/D converter 1043 to.The image signal transformation of simulation is Digital Image Data by A/D converter 1043, and exports controller 1047 to.Digital Image Data is written in storer 1046 by controller 1047.

Controller 1047 controls optical filter drive division 1045.Optical filter drive division 1045 pairs of colored filters 1041 through the color of light switch.

When colored filter 1041 makes the light transmission of the first look, the second look and the 3rd look, generate the view data of the first colouring component, the second colouring component and the 3rd colouring component respectively.The view data of the first colouring component, the second colouring component and the 3rd colouring component reads from storer 1046 by controller 1047, generates the two-dimensional image data of tristimulus values and exports interface 1048 to.Interface 1048 exports two-dimensional image data to PC1021.

It is desirable that preparation standard, wide-angle and the pick-up lens 1040 of looking in the distance, select the pick-up lens 1040 of the field angle of the entirety with storage measured object 9000, selected pick-up lens 1040 is mounted to housing 1049.

Shooting sensor 1042 is area sensor (dimension sensors).Shooting sensor 1042 is charge-coupled image sensor (CCD) sensors.Shooting sensor 1042 also can be the sensor beyond ccd sensor.Such as, taking sensor 1042 also can be complementary metal oxide semiconductor (CMOS) (CMOS) sensor.

Controller 1047 is central processing unit (CPU).Controller 1047 is field programmable gate array (FPGA).Controller 1047 also can be application-specific IC (ASIC).

(hardware of PC)

The block scheme of Fig. 3 represents PC1021.

As shown in Figure 3, PC1021 possesses: CPU1060, storer 1061, hard disk drive 1062, operating portion 1063 and display part 1064.Works beyond these works also can add in PC1021.

In hard disk drive 1062, the program 1080 for the treatment of two-dimensional image data is installed.Program 1080 also can be provided by recording medium 1100, also can provide via network 1120.When PC1021 plays a role as the device processing two-dimensional image data, program 1080 is loaded into storer 1061, CPU1060 and performs program 1080.

Hard disk drive 1062 also can be replaced into the memory storage of other kinds.Such as, hard disk drive 1062 also can be replaced into solid-state hard drive.

Operating portion 1063 is keyboard, indicating equipment, switch, rotary encoder etc.Indicating equipment is mouse, Trackpad, touch panel, flat board etc.

Display part 1064 is display, lamp etc.Display is liquid crystal display, organic electroluminescent (EL) display etc.

(process of two-dimensional image data)

The block scheme of Fig. 4 represents the content of the process of two-dimensional image data.

As shown in Figure 4, in PC1021, two-dimensional image data is processed by obtaining section 1140, display control unit 1141, identification part 1142, region setting part 1143, selection portion 1144, condition configuration part 1145, handling part 1146, operating portion 1063 and display part 1064.Obtaining section 1140, display control unit 1141, identification part 1142, region setting part 1143, selection portion 1144, condition configuration part 1145 and handling part 1146 are realized by CPU1060 executive routine 1080.Whole or a part of function of the process of two-dimensional image data also can be undertaken by special hardware.The two-dimensional image data being undertaken processing by PC1021 also can be firm data obtained from photographic unit 1020 before treatment, also can be the data obtaining in the past and be kept in hard disk drive 1062.Even if under the state of PC1021 after cutting off from photographic unit 1020, also can process two-dimensional image data.

The process flow diagram of Fig. 5 represents the content of the process of two-dimensional image data.Below, with reference to Fig. 4 and Fig. 5, the content of the process of two-dimensional image data is described.

In step S101, obtaining section 1140 obtains two-dimensional image data from photographic unit 1020.

In step s 102, two dimensional image, based on two-dimensional image data, is depicted on display part 1064 by display control unit 1141.Sometimes also display control unit 1141 can be omitted.

In step s 103, the background area of the inside of the 1142 pairs of two dimensional images in identification part and measured object region identify.

Background area is the region of measured object 9000 of not appearing before one's eyes.Measured object region is the region of measured object 9000 of appearing before one's eyes.

When measured object 9000 is flat panel, such as, the relatively high region of brightness is identified as measured object region, and the relatively low region of brightness is identified as background area.Background area and measured object region also can be identified by other algorithm.Such as, the region that also can possess specific color is identified as measured object region, and remaining region is identified as background area.Also can detect the profile with specific shape, the region being enclosed in detected profile is identified as measured object region, and remaining region is identified as background area.The shape in measured object region is rectangle.Rectangle also comprises square.The shape in measured object region also can be the shape beyond rectangle.

It is desirable that identification part 1142 is detected use operating portion 1063 and carried out the situation of the operation of the number being used to specify measured object region, the measured object region of the number of specifying being operated by this identifies.Thus, background area and measured object region is identified rapidly.The number in measured object region such as also can be divided into row m and row n and specify as (m × n).Identification part 1142 identifies the situation that m measured object 9000 is arranged as n row in advance, thus the detection of measured object 9000 becomes easy.

It is desirable that identification part 1142 is by being used for the information identifying background area and measured object region, be depicted on display part 1064.

In step S104, region setting part 1143 pairs of two dimensional images set the processed region of more than 2.Processed region refers to the region of the object being designated as process in two dimensional image among measured object region, and 1 processed region becomes the region suitable with a display picture as measured object.

When identification part 1142 identifies background area and measured object region, region setting part 1143 pairs of processed regions of measured object region setting.Thus, processed region is easily set.

The situation that can not identify background area and measured object region in identification part 1142 or when omitting identification part 1142, region setting part 1143 detects the situation using operating portion 1063 to carry out the operation for setting processed region, sets processed region according to this operation.

In step S105, selection portion 1144 selects the processed region of more than 1 from the processed region of more than 2.First, in initial selection, remain at least 1 non-selected processed region, thus select processed region.

It is desirable to, selection portion 1144, by being used for the information identifying (non-selected processed region) beyond the selected processed region (selected processed region) of more than 1 and the selected processed region of more than 1, is depicted on display part 1064.Thus, easily selected processed region and non-selected processed region are identified.

It is desirable that selection portion 1144 detects the situation using operating portion 1063 to carry out the operation for the processed region selecting more than 1, according to this operation, the processed region of more than 1 is selected.Also the operation using operating portion 1063 can not detected, and select the processed region of more than 1.Such as, also from the processed region of more than 2, processed region can be selected in order one by one.Or, also can preset 9 the processed regions being divided into 3 × 3, in order or optional processed region, perform independent process.

In step s 106, condition configuration part 1145 setting is applied to first treatment conditions in selected processed region.

In step s 107, whether terminate according to setting and branch is carried out to process.When setting does not terminate, process is back to step S105, in step S105, selection portion 1144 selects the new processed region (the processed region of more than two 1) of more than 1 different from the processed region (the processed region of more than the one 1) of more than 1 that selects, in step s 106, condition configuration part 1145 setting is applied to second treatment conditions in the processed region of more than the 21.Second treatment conditions are different from the first treatment conditions.Therefore, the first treatment conditions being applied to the processed region of more than the one 1 set mutually individually with second treatment conditions in the processed region being applied to more than the 21.Even if setting the second treatment conditions, the first treatment conditions also do not affect by it.Second treatment conditions can be all identical to the processed region of more than the 21, also can not be identical.When setting end, process advances to step S108.By the branch of the process in step S107, as required, until setting terminates repeated execution of steps S105 and S106.

When the virtual color display of the Two dimensional Distribution of two-dimensional color nitometer 1000 pairs of colourities or brightness is described, condition configuration part 1145 mutually individually setting be applied to the chroma data in the processed region of more than the one 1 or the first lower limit of brightness data and the first higher limit and be applied to the chroma data in processed region of more than the 21 or the second lower limit of brightness data and the second higher limit.Thus, the mapping range of the virtual color scale to chroma data or brightness data is set by each measured object 9000.

When two-dimensional color nitometer 1000 is described the colourity on the position of point or the value of brightness, the setting position that is applied to first of the processed region of more than the one 1 and the position of second point in processed region being applied to more than the 21 individually mutually, condition configuration part 1145.Thus, the extracting position of chroma data or brightness data is set by each measured object 9000.

When the enhancing display of the inequality of two-dimensional color nitometer 1000 pairs of colourities or brightness is described, the condition configuration part 1145 setting enhancing condition that is applied to first inequality in the processed region of more than the one 1 and the enhancing condition of the second inequality in processed region being applied to more than the 21 individually mutually.Thus, the enhancing condition of the inequality of chroma data or brightness data is set by each measured object 9000.

It is desirable that the user interface and two dimensional image that are used for setting the treatment conditions being applied to selected processed region arrange by condition configuration part 1145 be depicted in display part 1064.The situation using operating portion 1063 pairs of user interfaces to carry out the operation for setting the treatment conditions to selected processed region setting is detected in condition configuration part 1145, sets according to this operation the treatment conditions being applied to selected processed region.Thus, easily setting is applied to the treatment conditions in selected processed region.It is desirable that user interface is graphic user interface (GUI) parts.GUI parts are such as slider bar, text box, radio button etc.

In step S108, first treatment conditions of handling part 1146 to the processed region being applied to more than the one 1 are applied, and obtain the both sides of chroma data in the processed region more than the one 1 and brightness data or a side and process from two-dimensional image data.Second treatment conditions of handling part 1146 to the processed region being applied to more than the 21 are applied, and obtain the both sides of chroma data in the processed region more than the 21 and brightness data or a side and process from two-dimensional image data.

When the virtual color display of the Two dimensional Distribution of two-dimensional color nitometer 1000 pairs of colourities or brightness is described, handling part 1146 by the range mappings from the first lower limit to the first higher limit of chroma data or brightness data to virtual color scale, from two-dimensional image data, obtain the chroma data in the processed region more than the one 1 or brightness data, the display of the virtual color of the Two dimensional Distribution of the colourity in the processed region more than the one 1 or brightness is depicted on display part 1064.In addition, handling part 1146 by the range mappings from the second lower limit to the second higher limit of chroma data or brightness data to virtual color scale, from two-dimensional image data, obtain the chroma data in the processed region more than the 21 or brightness data, the display of the virtual color of the Two dimensional Distribution of the colourity in the processed region more than the 21 or brightness is depicted on display part 1064.In virtual color display, with the color corresponding with the chroma data on the position paid close attention to or brightness data, colorize is carried out to the position of this concern.

When two-dimensional color nitometer 1000 is described the colourity on the position of point or the value of brightness, handling part 1146 obtains chroma data on the position of first in the processed region more than the one 1 or brightness data from two-dimensional image data, the value of the colourity on the position of first of the processed region more than the one 1 or brightness is depicted on display part 1064.In addition, handling part 1146 obtains chroma data on the position of the second point in the processed region more than the 21 or brightness data from two-dimensional image data, the value of the colourity on the position of the second point in the processed region more than the 21 or brightness is depicted on display part 1064.

When the enhancing display of the inequality of two-dimensional color nitometer 1000 pairs of colourities or brightness is described, handling part 1146 obtains chroma data in the processed region more than the one 1 or brightness data from two-dimensional image data, according to the enhancing condition of the first inequality, the enhancing of the inequality of the colourity in selected processed region and brightness display is depicted on display part 1064.In addition, handling part 1146 obtains chroma data in the processed region more than the 21 or brightness data from two-dimensional image data, according to the enhancing condition of the second inequality, the enhancing of the inequality of the colourity in the processed region more than the 21 and brightness display is depicted on display part 1064.

By two-dimensional color nitometer 1000, easily evaluate each of the measured object 9000 of more than 2 that simultaneously photograph individually.

(example of two-dimensional color nitometer)

The schematic diagram of Fig. 6 represents the example of two-dimensional color nitometer 1000.

In the example shown in Fig. 6,9 liquid crystal panels 9020 are supported by framework 9021 and arrange.Being 3 in the number of permutations of longitudinal direction, is 3 in the number of permutations of transverse direction.About the number of liquid crystal panel 9020, a whole or part for the number of permutations of longitudinal direction and the number of permutations of transverse direction also can change.Leaving from arranged 9 liquid crystal panels 9020 and photographic unit 1020 is set, generating the two-dimensional image data for showing the two dimensional image that 9 liquid crystal panels 9020 are appeared before one's eyes out.

(indication example of display part)

Schematic diagram from Fig. 7 to Figure 11 represents the indication example of display part 1064.

If Fig. 7 is to as shown in Figure 11, in display part 1064, rendering image describes hurdle 1160, text renderer hurdle 1161 and slider bar 1162.Slider bar 1162 also can be replaced into the GUI parts of other kinds.

When obtaining section 1140 achieves view data (two-dimensional image data) for showing the two dimensional image that 9 liquid crystal panels 9020 are appeared before one's eyes out, as shown in Figure 7, the two dimensional image 1180 that 9 liquid crystal panels 9020 are appeared before one's eyes out by display control unit 1141 is depicted in image and describes in hurdle 1160.

Background area 1200,1142 pairs, identification part and measured object region 1201 identify, as shown in Figure 8, represent that the frame 1181 of profile in 9 measured object regions 1201 is overlapping with two dimensional image 1180 and are depicted in image and describe on hurdle 1160.Frame 1181 also represents the profile in processed region.The virtual color display of the Two dimensional Distribution of colourity or brightness, behind the processed region of setting, is depicted in the inside of frame 1181 by handling part 1146.The enhancing of the inequality of colourity or brightness display also can be depicted in the inside of frame 1181 by handling part 1146.

When selection portion 1144 have selected 2 processed region 1202 from 9 measured object regions 1201, as shown in Figure 9, the thick frame 1182 of the profile being used for representing selected processed region 1202 is depicted in image and describes hurdle 1160 by selection portion 1144.In addition, the guide look 1220 in 9 measured object regions 1201 is depicted on text renderer hurdle 1161 by selection portion 1144.Selected processed region 1202 is inverted display.Thus, the processed region 1202 selected by identification and non-selected processed region 1203.Numbering is given to 9 measured object regions 1201.This numbering is overlapping with two dimensional image 1180 and be depicted in image and describe on hurdle 1160.Handling part 1146 by the value 1221 of the colourity in the position of the point in processed region 1202 or brightness, among the guide look 1220 being depicted in measured object region 1201.

When using the slider bar 1162 shown in operating portion 1063 couples of Figure 10 to carry out the operation of lower limit for setting chroma data or brightness data and higher limit, condition configuration part 1145 is detected this operation, sets the first lower limit and first higher limit of chroma data or brightness data according to this operation.Handling part 1146 applies the first set lower limit and the first higher limit, and the display of the virtual color of the Two dimensional Distribution of the colourity in selected processed region 1202 or brightness is re-started description.Handling part 1146 is when setting the position of first, and the position of first set by application, re-starts description by the value of the colourity on the position of first of selected processed region 1202 or brightness.

It is desirable that as shown in Figure 11, represent that the circle 1240 of the position of point is depicted in the inside in processed region 1201.

Although the present invention is represented in detail and is described, above-mentioned description is illustrate and be not determinate in all.Therefore, be interpreted as not depart from the scope of the present invention and just can propose countless corrections and distortion.

Label declaration

1000 two-dimensional color nitometers

1020 photographic units

1021 PC

1160 images describe hurdle

1161 text renderer hurdles

1162 slider bars

Claims (12)

1. a two-dimensional image data treating apparatus, possesses:

Obtaining section, obtains the view data for showing two dimensional image;

Region setting part, sets the processed region of more than 2 to described two dimensional image;

Selection portion, from the processed region of described more than 2, does not select at least 1 processed region and makes it remain, and selecting the processed region of more than the one 1;

Condition configuration part, setting is applied to first treatment conditions in the selected processed region of described more than one 1; And

Handling part, applies described first treatment conditions, obtains the both sides of color data in the processed region of described more than one 1 and brightness data or a side and process from described view data.

2. two-dimensional image data treating apparatus as claimed in claim 1,

The second treatment conditions that the setting of described condition configuration part is different from described first treatment conditions, described second treatment conditions are applied to the processed region of more than two 1 different from the processed region of described more than one 1,

Described handling part applies the second treatment conditions, obtains the both sides of color data in the processed region of described more than 21 and brightness data or a side and process from described view data.

3. two-dimensional image data treating apparatus as claimed in claim 1, also possesses:

Display part,

Described condition configuration part, by being applied to the described color data in processed region of described more than one 1 or the higher limit of described brightness data and lower limit, is set as described first treatment conditions,

Described handling part by described color data or described brightness data from described lower limit to the range mappings of described higher limit to virtual color scale, the described color data in the processed region of described more than one 1 or described brightness data is obtained from described view data, and by the display of the virtual color of the Two dimensional Distribution of the color in the processed region of described more than one 1 or brightness, be depicted on described display part.

4. two-dimensional image data treating apparatus as claimed in claim 1, also possesses:

Display part,

The position of point in the processed region being applied to described more than one 1 is set as described first treatment conditions by described condition configuration part,

Described handling part obtains described color data on the position of the described point in the processed region of described more than one 1 or described brightness data from described view data, by the value of the color on the position of the described point in the processed region of described more than one 1 or brightness, be depicted on described display part.

5. two-dimensional image data treating apparatus as claimed in claim 1, also possesses:

Display part,

The enhancing condition of inequality in the processed region being applied to described more than one 1 is set as described first treatment conditions by described condition configuration part,

Described handling part obtains described color data in the processed region of described more than one 1 or described brightness data from described view data, according to the enhancing condition of described inequality by the enhancing of the inequality of the color in the processed region of described more than one 1 or brightness display, be depicted on described display part.

6. two-dimensional image data treating apparatus as claimed in claim 1, also possesses:

Display part; And

Display control unit, is depicted on described display part based on described view data by described two dimensional image,

Described selection portion, by the information beyond the processed region in the processed region and described more than one 1 that are used for identifying described more than one 1, is depicted on described display part.

7. two-dimensional image data treating apparatus as claimed in claim 1, also possesses:

Display part;

Operating portion; And

Display control unit, is depicted on described display part based on described view data by described two dimensional image,

User interface and described two dimensional image for setting described first treatment conditions arranges and is depicted in described display part by described condition configuration part, detection uses described operating portion and described user interface has been carried out to the situation of the operation for setting described first treatment conditions, and sets described first treatment conditions according to described operation.

8. two-dimensional image data treating apparatus as claimed in claim 1, also possesses:

Identification part, identifies the background area of the inside of described two dimensional image and measured object region,

Described region setting part is to the described processed region of setting, described measured object region.

9. two-dimensional image data treating apparatus as claimed in claim 8, also possesses:

Operating portion,

The situation using described operating portion to carry out the operation of the number being used to specify described measured object region is detected in described identification part, and identifies the described measured object region of the number of being specified by described operation.

10. a two-dimensional color nitometer, possesses:

Photographic unit, takes, and generates the view data for showing taken two dimensional image;

Obtaining section, obtains described view data;

Region setting part, sets the processed region of more than 2 to the described two dimensional image photographed;

Selection portion, from the processed region of described more than 2, does not select at least 1 processed region and makes it remain, and selecting the processed region of more than 1;

Condition configuration part, setting is applied to the treatment conditions in the selected processed region of described more than 1; And

Handling part, applies described treatment conditions, obtains the both sides of color data in the processed region of described more than 1 or brightness data or a side and process from described view data.

11. 1 kinds of two-dimensional image data disposal routes, possess:

A) step of the view data for showing two dimensional image is obtained;

B) described two dimensional image is set to the step in the processed region of more than 2;

C) from the processed region of described more than 2, at least 1 processed region do not selected and makes it remain, and selecting the step in the processed region of more than 1;

D) setting is applied to the step of the treatment conditions in the selected processed region of described more than 1; And

E) apply described treatment conditions, from described view data, obtain the both sides of color data in the processed region of described more than 1 and brightness data or a side and carry out the step that processes.

12. 1 kinds of two-dimensional image data handling procedures, make computing machine perform:

A) step of the view data for showing two dimensional image is obtained;

B) described two dimensional image is set to the step in the processed region of more than 2;

C) from the processed region of described more than 2, at least 1 processed region do not selected and makes it remain, and selecting the step in the processed region of more than 1;

D) setting is applied to the step of the treatment conditions in the selected processed region of described more than 1; And

E) apply described treatment conditions, obtain the both sides of color data the processed region of described more than 1 and brightness data or a side from described view data and carry out the step that processes.