JP2005201694A - Color chip processing device, color chip processing method and color chip processing program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To display the color which is acquired when a color in the optional color chip number has been seen under an arbitrary illumination light. <P>SOLUTION: This device is characterized by being equipped with a spectrum calculating means, into which information related to the spectral reflectance of a prescribed color included in prescribed color chips and information for determining the illumination light are inputted, for determining a spectrum under the determination illuminating light, relative to the prescribed color included in the prescribed color chips by calculation using the inputted information; and a chromaticity calculating means for converting the spectrum of the prescribed color determined by the spectrum operation means into chromaticity information, and outputting the chromaticity data. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a color chart processing device, a color chart processing method, and a color chart processing program that acquire spectral spectrum image information of a subject and obtain the correspondence between the color of an acquired image and a predetermined color chart.

  Conventionally, color management is performed in many fields. In general, the color of an object is determined by sensory evaluation using a color chart. For example, in the dental field, when a denture is manufactured, a color chart called a shade guide is used to determine which grade a tooth to be manufactured belongs to. For example, leaf color charts are adopted for crops such as rice. Growth management such as adjustment of the amount of fertilizer is performed by knowing the current growth situation by comparing the crops with this color chart. Furthermore, not only in the dentistry and agricultural fields, but also in a wide variety of industries, for example, diagnosis and inspection using color charts for various objects such as automobile paint colors, building paint colors, foodstuffs, clothing, etc. Has been done.

  The color is specified by a number (color chart number) in the color chart. In general, an experienced person or an expert determines the color chart number by visually comparing the object to be inspected with the color chart. For this reason, variations of the judges, variations among different judges, variations due to the lighting conditions on which the subject is placed, and the like, making it difficult to accurately determine the color chart number.

Therefore, Patent Document 1 discloses a color classification method using a camera system. In this proposal, a multispectral camera is used, and the grade classification of an image is performed using a multispectral image obtained by imaging with the camera. Compared to the case of using a normal RGB camera, the color determination accuracy can be dramatically improved by using a multispectral camera.
JP-A-7-120324

  By the way, the apparatus disclosed in Patent Document 1 and the like determines colors according to a unique classification unrelated to a predetermined color chart. Therefore, in the apparatus of Patent Document 1, it is impossible to grasp which color chart number of the known predetermined color chart corresponds to the color of the object. In this way, the various color systems cannot be associated with the color classifications that are uniquely adopted by various systems, and the number of colors included in the color chart is extremely large. There is a problem that there is no device that can display the color of the number when viewed under any illumination light.

  The present invention has been made in view of such problems, and is a color chart processing device and color chart capable of displaying a color when an arbitrary color chart number is viewed under an arbitrary illumination light. It is an object to provide a processing method and a color chart processing program.

In the color chart processing device according to claim 1 of the present invention, information related to the spectral reflectance of a predetermined color included in the predetermined color chart and information on the determination illumination light are input, and an operation using the input information is performed. To obtain a spectrum under the determination illumination light for a predetermined color included in the predetermined color chart, and convert the spectrum of the predetermined color obtained by the spectrum calculation means into chromaticity information. And chromaticity calculation means for outputting chromaticity data.
According to a ninth aspect of the present invention, there is provided a color chart processing device for photographing a subject to obtain a color signal of the subject, information relating to spectral reflectance of each color included in a predetermined color chart, and determination illumination light. A spectrum calculation means for obtaining a spectrum under the determination illumination light for each color included in the predetermined color chart by calculation using the input information, a subject color signal, and a subject color signal The spectral reflectance of the subject is obtained from the photographic illumination information when the image is acquired, the color signal of the subject is reproduced using the obtained spectral reflectance and the newly set subject rendering illumination information, and the reproduced color of the subject By comparing the signal with the spectrum of each color obtained by the spectrum calculation means, it is determined which color in the predetermined color chart the color signal of the subject is approximated to A constant section, provided with a chroma calculating means for outputting chrominance data by converting the color spectrum of the determination result by the determination means to the information of the chromaticity,
In the color chart processing method according to claim 12 of the present invention, information related to the spectral reflectance of a predetermined color included in the predetermined color chart and information on the determination illumination light are input, and an operation using the input information is performed. A spectrum calculation procedure for obtaining a spectrum under the determination illumination light for a predetermined color included in the predetermined color chart, and converting the spectrum of the predetermined color obtained by the spectrum calculation procedure into chromaticity information. And a chromaticity calculation procedure for outputting chromaticity data.
A color chart processing program according to a fourteenth aspect of the present invention is a computer in which information related to the spectral reflectance of a predetermined color included in a predetermined color chart and information on determination illumination light are input, and the input information is stored in the computer. Spectral calculation processing for obtaining a spectrum under the determination illumination light for a predetermined color included in the predetermined color chart by the calculation used, and a spectrum of the predetermined color obtained by the spectral calculation processing for chromaticity information And chromaticity calculation processing for outputting chromaticity data after conversion into.

  According to the present invention, it is possible to determine which color chart number of an arbitrary color chart corresponds to the color of an object.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing a color chart processing apparatus according to the first embodiment of the present invention.

  The color chart processing device in FIG. 1 determines, for a subject 1 that is a determination target, which color in a predetermined color chart is the color chart number that uniquely identifies the color in the color chart. Alternatively, a color chart ID such as a color chart symbol is output. A color detection unit 2 is disposed facing the subject 1. The color detection unit 2 is configured by a multispectral camera, for example, and captures a subject signal by photographing the subject 1. This subject signal includes, for example, spectral information of the subject 1. Further, the subject signal may include spectrum information of illumination light at the time of shooting.

  On the other hand, the color chart spectrum database unit 4 holds spectrum information for each color included in each color chart for one or more color charts. The color chart spectrum database unit 4 outputs spectrum information of each color (hereinafter referred to as color chart spectrum data) for the designated color chart.

  The color chart determination device 3 is provided with the subject signal from the color detection section 2 and the color chart spectrum data from the color chart spectrum database section 4. Further, the color chart determination device 3 is also provided with determination illumination light information which is information of illumination light used for color chart determination.

  The color chart determination device 3 calculates spectral information of each color in the designated color chart from the determination illumination light information and the color chart spectrum data. The color chart determination device 3 determines which color in the color chart the subject 1 corresponds to from the comparison between the spectrum information of each color in the calculated color chart and the spectrum information included in the subject signal, The color chart ID of the corresponding color is output.

  In the embodiment configured as described above, the color detection unit 2 performs photographing in a state where the subject 1 is illuminated with predetermined illumination light. The subject signal from the color detection unit 2 is given to the color chart determination device 3. The color chart determination device 3 sequentially reads out color chart spectrum data of each color of a predetermined color chart from the color chart spectrum database unit 4, and based on each read color chart spectrum data and determination illumination light information, specific determination illumination light Spectral information of each color in the color chart under. The color chart determination device 3 compares the calculated spectrum information of each color with the spectrum information in the subject signal, and determines a color corresponding to the color of the subject 1 among the colors in the color chart. The color chart determination device 3 outputs the color chart ID of the color determined as the color of the subject 1.

  In the present embodiment, spectrum information of each color is calculated using the determination illumination light information, and the determination result of the color chart ID is the determination (observation) illumination light as in the case of the color chart determination by visual observation. Will change accordingly. For example, in the field of dentistry, the shooting location to be determined may be different from the determination location of the color chart. In this case, when the shooting location is remote from the determination location, the shooting light information may be unknown. Even when the photographing light is clear, the color chart determination person may ignore the photographing light and perform the color chart determination using favorite judgment light based on experience or the like. The present embodiment can cope with such a case, and it is possible to calculate a useful color chart ID suitable for actual use by performing color chart determination using information of determination illumination light.

  It should be noted that, also in the present embodiment, it is obvious that the color chart ID may be calculated in a state where the determination illumination light is matched with the imaging illumination light using the information of the imaging illumination light at the time of shooting of the determination target. It is.

  As described above, in this embodiment, a color chart spectrum database unit that holds spectrum information of each color chart is provided, and each color of each color chart is based on the spectrum information from the color chart spectrum database section and the information of the determination illumination light. Spectral information is calculated, and a color chart ID indicating the color of the subject is obtained by comparing the calculated spectral information with the spectral information of the subject. As a result, the color to be determined can be specified by applying to the color in the color chart defined for each of various types of business instead of the color degree unique to the color chart determination system. Further, since the color chart spectrum database storing the spectrum information of each color of various color charts is used, it is not necessary to obtain the correspondence between the colors unique to the system and the colors of the color chart by learning or the like. Furthermore, the color chart ID under an arbitrary illumination light source can be obtained, which is extremely convenient. For example, the color chart ID can always be determined under a certain illumination condition, and the color chart ID can be determined under different illumination light.

  FIG. 2 is a block diagram showing a color chart processing apparatus according to the second embodiment of the present invention. The present embodiment shows a specific configuration example of the color chart processing apparatus, and is an example in which the color chart ID is calculated using only the information of the determination illumination light without using the information of the photographing illumination light. .

  The color chart processing apparatus according to the present embodiment includes a color detection section 8, a color chart spectrum database section 20, a color chart determination section 13, and a color chart ID display section 19.

  The color detector 8 constitutes, for example, a contact or non-contact spectrometer, and has a spectrum detector 9 and an illumination device 10. The illumination device 10 irradiates the subject with photographing illumination light. As the illumination device 10, various light sources such as a xenon lamp, a fluorescent lamp, and a halogen lamp can be employed. The spectrum detector 9 has an optical system 11 and a spectroscopic sensor 12. The optical system 11 guides reflected light from the subject 1 to the spectroscopic sensor 12. The spectroscopic sensor 12 separates the incident light and obtains a spectral distribution of the reflected light of the subject. The spectroscopic sensor 12 outputs the obtained spectrum distribution to the color chart determination unit 13 as a determination subject spectrum.

  The color chart spectrum database unit 20 includes a color chart spectrum storage device 21. The color chart spectrum storage device 21 has a plurality of spectrum data storage sections 22 for storing spectrum data for a plurality of color charts. In the example of FIG. 2, the color chart spectrum storage device 21 includes a Munsell color chart, a crown color chart, a Macbeth color chart, a leaf color chart, a DIC color chart, an interior color chart, a skin color chart, and a frozen tuna quality chart. It has a spectrum data storage unit 22 for storing spectrum data for.

  In the present embodiment, the spectral reflectance of each color of each color chart is adopted as the spectral data stored in the spectral data storage unit 22. Table 1 below illustrates an example of spectrum data stored in the spectrum data storage unit 22 in FIG. The example in Table 1 indicates that the spectral data is composed of spectral reflectance information for each color chart ID.

[Table 1]
Color chart ID spectrum
390 400 410 420… 770 780 (frequency)
10GY 2/2 0.42 0.45 0.65 0.76… 0.32 0.25
10GY 2/4 0.55 0.47 0.43 0.88… 0.44 0.36
10GY 2/6 0.73 0.49 0.27 0.98… 0.56 0.45
・ ・
・ ・
・ ・
n CN (n, λ)

Note that n indicates a color chart ID, and CN (n, λ) indicates a color chart spectrum of the color chart IDn.

  The color chart spectrum database unit 20 is provided with a color chart selection signal for selecting a color chart, and color chart determination is performed on the spectral reflectance information stored in the spectrum data storage unit 22 selected by the color chart selection signal. This is output to the color chart determination device 14 of the section 13.

  The color chart determination unit 13 includes a color chart determination apparatus 14, a color chart DB specifying apparatus 18, and a determination illumination light specifying apparatus 17. The color chart DB designating device 18 is for designating the type of color chart used for color chart determination, generates a color chart selection signal corresponding to the type of color chart, and outputs it to the color chart spectrum database unit 20. It is like that. The color chart DB designating device 18 can generate not only a color chart selection signal indicating a predetermined color chart type but also a color chart selection signal according to the designation of the judge. It has become.

  The determination illumination light specifying device 17 outputs, for example, a determination illumination light spectrum to the color chart determination device 14 as information for specifying the illumination light used for the color chart determination. The determination illumination light specifying device 17 may be configured to output a predetermined determination illumination light spectrum that is determined in advance, or may be configured to output a determination illumination light spectrum according to the designation of the determiner. Also good. For example, the determination illumination light specifying device 17 includes a storage device that stores spectrum information of one or more light sources such as a D65 standard light source, and outputs spectrum information of a predetermined light source in accordance with an instruction from a determiner.

  The color chart determination device 14 includes a determination subject spectrum storage unit 15 and a pseudo spectrum calculator 16 that constitutes a spectrum calculator. The determination subject spectrum storage unit 15 stores the subject spectrum from the color detection unit 8. The pseudo-spectrum calculator 16 sequentially receives the spectral reflectance for each color chart ID from the color chart spectrum database unit 20, and calculates the product of the spectral reflectance for each color chart ID and the determination illumination light spectrum for each color chart ID. A spectrum (hereinafter referred to as a color chart spectrum) is obtained.

  Then, the pseudo spectrum calculator 16 reads the determination subject spectrum stored in the determination subject spectrum storage unit 15 and obtains the color chart spectrum that is closest to the subject spectrum among the color chart spectra for each of the obtained color chart IDs. The pseudo spectrum calculator 16 obtains a color chart spectrum by, for example, the following equation (1).

φ (n) = | S (λ) −CN (n, λ) × JL (λ) | ² (1)
Where λ is the wavelength, n is the color chart ID, S (λ) is the subject spectrum, CN (n, λ) is the color chart spectrum of the color chart IDn, and JL (λ) is the determination illumination light spectrum. It is.

  The pseudo spectrum calculator 16 obtains a color chart spectrum that minimizes φ (n) in the above equation (1), and outputs a color chart ID that gives the color chart spectrum.

  The color chart ID from the color chart determination device 14 is given to the color chart ID display unit 19. The color chart ID display unit 19 displays the input color chart ID on a display screen (not shown). The pseudo spectrum calculator 16 and the color chart ID display unit 19 constitute a determination information output unit.

  Next, the operation of the embodiment configured as described above will be described.

  First, the shooting area of the color detection unit 8 is set to a specific position of the subject 1 to be determined for which the color chart ID is to be determined. In this state, the illumination device 10 irradiates the subject 1 with illumination light, and the color detection unit 8 acquires the spectrum of the shooting area. In this way, the spectrum of the subject 1 under the illumination of the illumination device 10 is measured. The measured determination subject spectrum is provided to the determination subject spectrum storage unit 15 of the color chart determination device 14.

  The color chart determination unit 13 first sets the type of color chart to be determined by the color chart DB specifying device 18. The color chart selection signal from the color chart DB specifying device 18 is given to the color chart spectrum database unit 20. The color chart spectrum database unit 20 reads out the spectrum data (spectral reflectance) stored in the color chart spectrum data storage unit 22 selected by the color chart selection signal for each color chart ID, and the color chart determination device 14. Output to.

  The color chart determination device 14 obtains a color chart spectrum under the determination illumination light by the product of the spectral reflectance and the determination illumination light spectrum, and is closest to the subject spectrum by comparing the subject spectrum with the obtained color chart spectrum. Obtain the color chart spectrum. Then, the color chart determination device 14 outputs the color chart ID that gives the obtained color chart spectrum as the color chart ID of the color closest to the color of the subject 1.

  This color chart ID is given to the color chart ID display unit 19. The color chart ID display unit 19 displays the input color chart ID on a display screen (not shown).

  In this way, the determiner confirms on the display screen the determination result when determining which color chart ID in the specified color chart is the color of the subject under the desired determination illumination. Can do.

  Thus, in the present embodiment, the determiner can quickly and easily obtain the color chart ID closest to the subject to be measured. In this case, it is not necessary to learn the correspondence between the color classification unique to the system and the color classification of the color chart, and the color chart ID can be easily acquired. Moreover, it is possible to obtain a color chart ID under a desired illumination light source without being affected by the photographing illumination light.

  In addition, the type of color chart used for the determination can be easily changed by the color chart ID specifying unit, and color chart determination for various uses can be performed.

  Note that the color chart ID display unit 19 may display not only the color chart ID but also the type of color chart used for the color chart determination. The color chart determination using the color chart may be performed, and the determination result of the color chart ID may be displayed for each color chart.

  It is also possible to instantaneously transmit the obtained color chart ID information to a remote place or a device possessed by many members via a network (not shown). FIG. 3 is a block diagram showing a configuration added in this case.

  The color chart ID from the color chart determination device 14 of the color chart determination unit 13 is given to the color chart ID transmission device 25. The color chart ID transmission device 25 transmits the color chart ID to the devices of different operators for each color chart ID according to the type of the input color chart or according to the operation of the operator.

  Thereby, a plurality of color chart IDs determined by the color chart determination device 14 can be used for a plurality of purposes at the same time. For example, it is assumed that the color chart determination is performed by designating the interior color chart and the DIC color chart by the color chart DB designating device 18 for the color desired by the architect of the building. In this case, color chart IDs for the interior color chart and the DIC color chart are obtained from the color chart determination device 14. Then, the color chart ID transmission device 25 transmits the color chart ID of the interior color chart to the contractor as shown in FIG. Thereby, the contractor can produce what reproduced the color which the designer specified using the interior color chart faithfully. Further, the color chart ID transmission device 25 transmits the color chart ID of the DIC color chart to the printing shop. As a result, when performing catalog printing or the like, the printing shop can be used for catalog printing or the like in which the color designated by the designer is faithfully reproduced using the DIC color chart. Thus, in this embodiment, since a plurality of color chart IDs can be output simultaneously, the result can be used for a plurality of applications.

  FIG. 4 is a block diagram showing a color chart processing apparatus according to the third embodiment of the present invention. In FIG. 4, the same components as those in FIG.

  The present embodiment shows a specific configuration example of the color chart processing device, and is an example in which the color chart ID is calculated using not only the information of the determination illumination light but also the information of the photographing illumination light. The present embodiment employs a color chart determination section 30 instead of the color chart determination section 13 and determines not only the subject spectrum from the color detection section 8 but also the color chart determination of the photographing illumination spectrum as illumination light information at the time of photographing. The difference from the second embodiment shown in FIG. 2 is that it is supplied to the unit 30.

  In the second embodiment, the subject is photographed under photographing illumination light, whereas the color chart determination is performed in a state where the color chart color is illuminated with a predetermined light source such as a D65 standard light source. did. On the other hand, in this embodiment, even when both the subject and the illumination light that irradiates the color chart are arbitrarily selected, it is possible to make an effective color chart determination.

  The color chart determination unit 30 includes an illumination sensor 35 and an illumination spectrum data storage unit 34 for measuring an external light spectrum. The illumination spectrum data storage unit 4 stores spectra of various illumination light sources. For example, in addition to artificial light sources such as xenon lamps, fluorescent lamps, and halogen lamps, daylight sunlight and evening sunlight Spectral data of outside light such as cloudy light and light of only blue sky is also stored.

  The determination illumination light designating device 33 uses not only the color chart illumination light corresponding to the determination illumination light of the second embodiment for the color chart determination, but also the illumination light (hereinafter referred to as the object illumination light for the color chart determination). Subject rendering illumination light). By the determination illumination light specifying device 33, the subject rendering illumination light is illumination light by the illumination device 10 used at the time of actual photographing of the subject 1, external light, or a predetermined prestored in the illumination spectrum data storage unit 34. It is designed to select lighting.

  The determination illumination light designating device 33 gives the subject rendering illumination spectrum, which is the spectrum of the subject rendering illumination light, to the spectrum estimation computing unit 32 of the color chart determination device 31, and uses the color chart illumination spectrum, which is the spectrum of the color chart illumination light, as a pseudo spectrum. This is given to the arithmetic unit 16.

  The spectrum estimation calculator 32 calculates a spectrum of a subject to be determined from the input photographing illumination spectrum, photographing rendering illumination spectrum, and subject spectrum (corresponding to the judgment subject spectrum in the second embodiment), and a determined subject spectrum storage unit 15 is output.

  Next, the operation of the embodiment configured as described above will be described.

  Similar to the second embodiment, the determiner sets a photographing area of the color detection unit 8 at a specific position of the subject 1 for which color chart determination is desired, and acquires a spectral spectrum of the area. The color detection unit 8 also acquires a photographing illumination spectrum that is a spectral spectrum of the illumination light of the illumination device 10 using a standard white plate or the like. The color detection unit 8 transmits the acquired spectral spectrum as the subject spectrum to the color chart determination unit 30 and also transmits the acquired photographing illumination spectrum to the color chart determination unit 30.

  In the color chart determination unit 30, an external light spectrum (external light spectrum) is obtained by the illumination sensor 35 and is provided to the determination illumination light designating device 33. Further, the determination illumination light specifying device 33 can read a spectrum of predetermined illumination light stored in the illumination spectrum data storage unit 34. Note that when the color detection unit 8 and the color chart determination unit 30 are arranged close to each other, the illumination sensor 35 can also acquire a spectrum of imaging illumination light (imaging illumination spectrum).

  In the present embodiment, the spectrum of the photographing illumination light used at the time of photographing is transmitted from the color detection unit 8, and the photographing illumination light spectrum and the color chart illumination spectrum are made to coincide with each other at the time of color chart determination. Color chart determination using the same determination illumination is possible. Furthermore, in the present embodiment, it is possible to perform color chart determination similar to the case where illumination different from the illumination at the time of actual photographing is used as photographing illumination, and the determination illumination light spectrum (color) used for color chart determination is also possible. Any vote illumination spectrum may be employed. Furthermore, in the color chart determination, when any color chart illumination is used, it is possible to make the same color chart determination as in the case of using the determination illumination that matches the photographing illumination.

  The spectrum estimation calculator 32 is provided with the photographic illumination spectrum, the subject spectrum, and the subject rendering illumination spectrum selected by the determination illumination light designating device 33, and is operated under the subject rendering illumination light by the following equation (2). A subject determination spectrum S (λ) is calculated.

S (λ) = {S ′ (λ) / L (λ)} × RL (λ) (2)
Where S ′ (λ): subject spectrum under illumination of the illumination device 10 L (λ): imaging illumination spectrum that is a spectral spectrum of illumination light of the illumination device 10 RL (λ): subject rendering illumination spectrum (2) Is to obtain a subject spectrum when the subject 1 is photographed under subject rendering illumination light (reproduce the subject spectrum). The subject spectrum S (λ) obtained by the spectrum estimation calculator 32 is given to and stored in the judgment subject spectrum storage unit 15.

  On the other hand, the determination illumination light specifying device 33 gives the color chart illumination spectrum JL (λ) to the pseudo spectrum calculator 16. In this way, the color chart determination device 31 provides a color chart that approximates the color chart spectrum of an arbitrary color in the designated color chart according to the above equation (1), as in the second embodiment. Find the ID.

  When the subject rendering illumination spectrum and the color chart illumination spectrum are matched, it is possible to determine the color chart in a state where the shooting illumination and the determination illumination are matched, and further, the shooting illumination spectrum, the subject rendering illumination spectrum, and When the color chart illumination spectra are matched with each other, the color chart determination can be performed in a state where the actual photographing illumination and the determination illumination are matched.

  Thus, in this embodiment, both the subject and the illumination light that irradiates the color chart can be selected arbitrarily (separately). Color chart determination simulating not only the illumination light actually captured of the subject but also the outside light captured by the illumination sensor and the imaging using any illumination light of the light source stored in advance is possible.

  Therefore, even when the color detection unit and the color chart determination unit are located in remote locations or under different lighting environments, the same accurate color chart determination as when the subject and the color chart are irradiated with the same light source Is possible. Furthermore, since the color chart illumination light to be irradiated on the color chart can be freely selected, it is possible to determine the color chart when the illumination light is not necessarily the same as the illumination light of the subject. As a light source in this case, a light source at a place where the color chart determination unit is placed may be used, or a predetermined light source determined in advance may be used. For example, even if the subject is in various environments, it is possible to always make a color chart determination under constant illumination.

  By the way, the color chart processing device in each of the above embodiments can have various configurations as a color detection section, a color chart determination section, a color chart spectrum database section, and a color chart ID display section. For example, FIG. 5 shows an example in which the color detection unit, the color chart determination unit, the color chart spectrum database unit, and the color chart ID display unit are configured by a small terminal such as a PDA.

  In FIG. 5, the color detection device includes a fiber 41 and a diffraction grating (not shown), and the diffraction grating is built in the PDA 42. The PDA monitor screen 43 also serves as a color chart ID display unit. A card-type memory 44 is employed as each storage unit in the color chart spectrum database unit. Since the spectrum data of each color of the color chart has an enormous amount of data, a specific color chart data may be stored for each card. The color chart spectrum data may be compressed and stored.

  FIG. 6 shows an example in which the color chart spectrum database unit is located at a remote location from the color chart determination unit.

  As shown in FIG. 6, the color chart spectrum database unit 54 is provided in a remote data center 53. The color chart spectrum database unit 54 includes a transmitter 55, a database server 56, and a color chart spectrum storage device 57. The color chart spectrum storage device 57 corresponds to the color chart spectrum storage device in each of the above embodiments. The database server 56 can transmit the color chart spectrum data of each color in each color chart stored in the color chart spectrum storage device 57 to the PDA 51 via the transceiver 55.

  On the other hand, a color chart determination unit (not shown) is built in the PDA 51. The PDA 51 also incorporates a transmission / reception device (not shown) for receiving the color chart spectrum data from the color chart spectrum database section 54. The color chart determination section uses the color chart spectrum data received via the antenna 52. Color chart determination is performed.

  Further, FIG. 7 shows a color chart determination device that performs calculations such as the above equations (1) and (2), among the color chart determination section, from a terminal that includes other portions of the color detection section and the color chart determination section. The example provided in the data center is shown. As shown in FIG. 7, the terminal 61 includes the optical system 11 and the spectral sensor 12 in the color detection unit 8 of FIG. 4, and can capture the subject spectrum and the photographing illumination spectrum by imaging the subject 1. it can. Further, the terminal 61 includes the color chart DB specifying device 18, the illumination sensor 35, and the determination illumination light specifying device 33 in the color chart determining section 30 of FIG. 4, and further includes a color chart ID display section 19. . 7 does not directly output the illumination spectrum used for the color chart determination, but outputs information for specifying the illumination spectrum (determination illumination light designation information). Yes.

  As described above, the configuration corresponding to the color chart determination device 31 and the configuration corresponding to the illumination spectrum data storage section 34 in the color chart determination unit 30 are provided in the data center 65. The data center 65 includes an illumination spectrum data storage unit 34 and a color chart spectrum database unit 20. Furthermore, a database server 67 and a calculation server 68 having functions corresponding to the color chart determination device 31 are provided. The terminal 61 and the data center 65 can exchange data with each other by a communication I / F 62 provided in the terminal 61 and a communication I / F 66 provided in the data center 65.

  In the color chart processing device configured as described above, the information specifying the subject spectrum, the photographing illumination spectrum, and the determination illumination light of the subject 1 obtained by the terminal 61 is transmitted to the data center 65 via the communication I / F 62. Is done. The data center 65 receives various information from the terminal 61 via the communication I / F 66 and outputs it to the database server 67 and the calculation server 68. The database server 67 and the calculation server 68 read out the determination illumination light spectrum from the illumination spectrum data storage unit 34 based on the determination illumination light designation information, and the color chart specified by the color chart selection signal from the color chart terminal 61. The color chart spectrum data of each color is read and the calculation of the above equation (2) is performed. Accordingly, the database server 67 and the calculation server 68 obtain a color chart ID that is a determination result of the color of the subject 1.

  The color chart ID obtained by the database server 67 and the calculation server 68 is transmitted to the terminal 61 via the communication I / F 66 and the communication I / F 62 and displayed on the color chart ID display unit 19.

  In this way, color chart spectrum data and illumination spectrum data having a large amount of data are prepared in the data center, and the color chart ID can be determined at the data center. As a result, even when the storage capacity and calculation capability of the terminal 61 are relatively low, it is possible to easily obtain the color chart ID, and the latest data can always be used, thereby simplifying the maintenance. Yes.

  In FIG. 7, the communication I / Fs 62 and 66 are connected by a cable. However, it is obvious that the communication I / Fs 62 and 66 may be connected by a wireless line.

  FIG. 8 is a block diagram showing a color chart processing apparatus according to the fourth embodiment of the present invention. In FIG. 8, the same components as those of FIG.

  In each of the above embodiments, the color detection unit captures a predetermined spot of the subject and obtains a subject signal. On the other hand, the present embodiment uses an electronic camera as a color detection unit and obtains a subject signal from a captured subject image.

  In FIG. 8, the color detection unit 71 is configured using a multispectral camera 72 capable of capturing an image. For example, the multispectral camera 70 can perform frame sequential spectroscopic imaging using the bandpass filter disclosed in Patent Document 1 described above. The number of bands of the spectral image is not particularly limited, and may be, for example, 8 bands. The multispectral camera 72 captures the subject 1 and outputs the subject image to the color chart determination unit 75. Thus, the color detection unit 71 can output a subject image for each band, that is, a spectrum of the subject image (subject spectrum). The subject spectrum from the color detection unit 71 is obtained for each pixel of the subject image.

  The illumination device 74 illuminates the subject 1. The illumination sensor 73 can detect a spectrum of illumination light irradiated on the subject 1 and output it as a photographing illumination spectrum.

  The color detection unit 71 is different from the color chart determination unit 30 of FIG. 4 in that a determination image creation unit 76 is added. The determination image creation unit 76 is given a color chart ID determination result for each pixel of the captured image or for each predetermined region. The determination image creating unit 76 creates an image indicating the correspondence between the captured image and the color chart ID for each pixel or each predetermined region, and outputs the image to the color chart ID display unit 19. The color chart ID display unit 19 displays an image showing the correspondence between the photographed image and the color chart ID for each pixel or each predetermined area.

  Next, the operation of the embodiment configured as described above will be described with reference to the explanatory diagram of FIG. FIG. 9A shows a subject image captured by the multispectral camera 72, and FIG. 9B shows a display example on the display screen of the color chart ID display unit 19.

  The multispectral camera 72 obtains, for example, a two-dimensional spectral image for eight bands. FIG. 9A shows a subject image taken by the multispectral camera 72. The subject image in FIG. 9A shows a photographing example when three upper teeth 80 to 82 are photographed.

  Simultaneously with the photographing of the multispectral camera 72, the illumination sensor 73 detects the photographing illumination spectrum of the illumination light irradiated on the subject 1. The image signal of the subject image obtained by the multispectral camera 72 and the photographing illumination spectrum are given to the color chart determination unit 75.

  The color chart determination unit 75 calculates a color chart ID for each pixel of the subject image by the calculation of the above equation (2). The color chart ID calculation method is the same as in each of the above embodiments. In this case, if the color chart ID calculation process is performed on the pixels in the entire area of the subject image, a long processing time is required. Therefore, the color chart determination device 31 calculates the color chart ID of each pixel for only the color measurement area in the subject image. For example, when it is desired to perform color chart determination on only the central tooth 82 among the three teeth shown in FIG. 9A, a colorimetric area 83 including the central tooth 82 (see FIG. 9B). Set.

  The color chart determination device 31 performs color chart determination for each pixel in the colorimetric area 83 in the subject image. The color chart determination device 31 outputs the obtained color chart ID to the determination image creation unit 76. The determination image creating unit 76 creates a determination image for displaying the color chart ID distribution as an image based on the input color chart ID information for each pixel. The determination image creation unit 76 gives the created determination image to the color chart ID display unit 19 and displays it on the display screen.

  FIG. 9B shows an example of the determination image displayed on the display screen 85. In the example of FIG. 9, a color is set to the color chart ID obtained for each pixel, and the color of each pixel of the subject image is set to a color corresponding to the color chart ID. FIG. 9B shows that the colors are different depending on the oblique lines. Areas with the same color chart ID are displayed in the same color, and pixels having different color chart IDs are displayed in different colors. In the example of FIG. 9B, a crown color chart (shade guide) is used as the color chart, and each pixel in the color measurement area indicates a value of the crown color chart of A3, A3.5, or A4. ing. That is, among the measured teeth 82, the determination is that the crown color chart on the gum side is A4, the central crown color chart on the center is A3.5, and the crown color chart on the tip side of the tooth is A3. Indicated by the color distribution.

  Note that a partial area 86 of the display screen 85 shows the correspondence between the color of the determination image and the color chart ID. FIG. 9B shows an example in which the color chart ID is also shown in the determination image.

  As described above, in the present embodiment, it is possible to simultaneously determine color chart IDs in a plurality of regions by a multispectral camera. In this embodiment, an 8-band multispectral camera is used as the camera. However, the camera is not limited to 8 bands, and a larger number of bands may be used. It is clear that the required accuracy may be obtained even with three bands.

  Further, although the illumination light spectrum at the time of photographing is detected by the illumination sensor, data measured in advance and stored in a memory or the like may be used, or a patent document (Japanese Patent Laid-Open No. 11-096333) may be used. Thus, a dedicated chart for detecting the illumination spectrum may be used.

  By the way, as a multispectral camera, an illumination type multispectral camera may be used as in Japanese Patent Application No. 2002-218863 filed earlier by the present applicant.

  FIG. 10 is an explanatory diagram showing a configuration example when such an illumination type multispectral camera is used. FIG. 11 is a flowchart showing program processing by the personal computer 99 in FIG.

  FIG. 10 shows an example in which an illumination type multispectral camera 90 is employed as the color detection unit 71 of FIG. Each function of the color chart determination unit 75 and the color chart spectrum database unit 20 in FIG. 8 is realized by a personal computer 99. 8 is realized by the display 100 of the personal computer 99.

  The multispectral camera 90 has a main body portion 96 and a grip portion 97, and the grip portion 97 is provided with a photographing button 95. The main body 96 is provided with an imaging lens system 92 that images light from the subject 1 at the tip, and the light receiving surface of the CCD 93 is disposed at an imaging position by the imaging lens system 92. A multi-color LED illumination device 91 that illuminates the subject 1 is disposed on the front surface of the main body 96. Further, a shielding member 89 for blocking external light incident on the subject 1 is provided at the tip of the main body 96. The main body 96 is provided with an illumination spectrum data memory 94, and the memory 94 holds illumination spectrum data regarding illumination light of the multicolor LED illumination device 91.

  When the photographing button 95 is operated and photographing is started, LED lighting having a plurality of spectral characteristics is emitted from the multicolor LED illumination device 91 to the subject 1. The reflected light of the subject 1 forms an image on the CCD 93 via the imaging lens system 92 and is converted into an image signal of the subject image. On the other hand, illumination spectrum data based on the illumination light of the multicolor LED illumination device 91 is read from the memory 94. In this way, the multispectral camera 90 can obtain the same output as the color detection unit 71 of FIG. The subject image and the illumination spectrum data from the multispectral camera 90 are given to the personal computer 99 via the cable 98.

  The personal computer 99 can exhibit the same functions as those of the color chart spectrum database unit 20, the color chart determination unit 75, and the color chart ID display unit 19 shown in FIG. That is, the personal computer 99 uses a CPU and a memory (not shown) to transmit the captured illumination spectrum, the subject spectrum, the subject rendering illumination spectrum, and the subject rendering illumination light under the subject rendering illumination light by the calculation of the above equation (2). A subject determination spectrum S (λ) is calculated (step S1 in FIG. 12).

  Next, the personal computer 99 reads the color chart spectrum data (spectral reflectance) recorded on a recording medium such as a hard disk (not shown), for example (step S2), and calculates the subject spectrum by calculation with the transmitted color chart illumination spectrum. Is calculated (step S3). Then, the personal computer 99 obtains a color chart ID that gives a color chart spectrum that approximates the color chart spectrum of an arbitrary color in the specified color chart by comparing the subject spectrum and the determination subject spectrum (step S4).

  In this way, the personal computer 99 displays a determination image indicating the color chart ID for each pixel in the colorimetric area of the subject image based on the subject image and the illumination spectrum data input via the cable 98 on the display 100. (Step S5).

  Thus, the present embodiment can be configured using an illumination type multispectral camera.

  FIG. 12 is a block diagram showing an application example of the color chart processing apparatus. In FIG. 12, the same components as those of FIG.

  FIG. 12 uses the color chart processing apparatus according to the first embodiment. The color specified by the color chart ID may be obtained by blending a plurality of colors. Conventionally, there has been no apparatus for determining the blending amount for producing the color of the predetermined color chart ID. The example of FIG. 12 is an application example using the determined color chart ID, and is applied to a method for obtaining the blending amount of the material for realizing the color indicated by the color chart ID of the determination result.

  For example, in the field of dentistry, a denture is manufactured based on the determined crown color chart (shade guide). In this case, the work for blending a plurality of porcelain materials is necessary for the production of dentures. In FIG. 12, for example, the blending ratio of porcelain during denture production can be obtained.

  The blending ratio database unit 111 stores blending ratio information for obtaining a color to be produced for each color chart ID. For example, the blending ratio database unit 111 holds information on the blending ratio of porcelain necessary for denture production for each color chart ID of the crown color chart. Information on the mixing ratio held in the mixing ratio database unit 111 is supplied to the mixing ratio acquisition device 112 as mixing ratio data. The blending rate acquisition device 112 reads the blending rate data from the blending rate database unit 111 using the color chart ID given from the color chart determination device 3, and outputs it as the blending amount of each porcelain for obtaining the determination result color. To do.

  In the embodiment configured as described above, a color chart ID indicating which color in the specified color chart is the color of the subject is obtained from the color chart ID determination device 3. The blending rate acquisition device 112 reads blending rate data from the blending rate database unit 111 and outputs the blending amount of each porcelain for obtaining the color of the determination result.

  Thus, in the example of FIG. 12, the blending amount of each porcelain for obtaining the same color as the color of the determination result for the determination target can be automatically obtained. In addition, in the example of FIG. 12, although the example which calculates | requires the compounding quantity of the porcelain at the time of denture production was demonstrated, it is clear that it can apply to all the things which mix a some material and produce a desired color. It is. For example, it can be used for blending paints in painting.

  FIG. 13 is an explanatory diagram showing an example in which the example of FIG. 12 is configured using an illumination type multispectral camera similar to that of FIG. In FIG. 13, the same components as those in FIG.

  The example of FIG. 13 shows an example in which the functions of the color detection unit 2 and the color chart determination device 3 of FIG. 12 are realized by the multispectral camera 115 and the configuration for realizing other functions is configured in the data center 120. The multispectral camera 115 is different from the multispectral camera 90 of FIG. 10 in that it includes a color chart determination circuit 116, a display 117, and a transmission / reception circuit 118.

  In addition, the data center 120 includes a color server spectrum database unit 4 and a blending rate database unit 111 similar to those in FIG. 12, and a database server 121 corresponding to the blending rate acquisition device 112 in FIG.

  It is obvious that the data center 120 may be configured in the multispectral camera 115 if a sufficient capacity memory and arithmetic circuit can be provided in the multispectral camera 115.

  According to such a configuration, the database server 121 can read out the color chart spectrum data stored in the color chart spectrum database unit 4 and transmit it to the multispectral camera 115 via the transceiver 55. The transmission / reception circuit 118 of the multispectral camera 115 receives the color chart spectral data transmitted from the data center 120 and outputs it to the color chart determination circuit 116.

  The color chart determination circuit 116 corresponds to the color chart determination apparatus 3 in FIG. 12, and uses a subject spectrum obtained by photographing the subject 1, a photographing illumination spectrum provided from the memory 94, and color chart spectrum data from the data center 120. Thus, the color chart ID corresponding to the color of the subject 1 is calculated. The color chart ID obtained by the color chart determination circuit 116 is transmitted to the data center 120 by the transmission / reception circuit 118.

  The database server 121 of the data center 120 uses the color chart ID from the multispectral camera 115 and the blending ratio data stored in the blending ratio database unit 111 to determine the blending amount for producing the color indicated by the color chart ID. Ask. The database server 121 transmits the obtained blending amount information together with the corresponding color chart ID information to the multispectral camera 115 via the transceiver 55.

  The multispectral camera 115 gives the information of the color chart ID and the blending amount received by the transmission / reception circuit 118 to the display 117 and displays it on the screen.

  In this way, in the example of FIG. 13, information on the blending amount obtained using information in the remote blending ratio database unit 111 is transmitted to the multispectral camera 115 via the wireless line, and blended together with the color chart ID. Quantity information can be displayed.

  FIG. 14 is a block diagram showing a color chart processing apparatus according to the fifth embodiment of the present invention. In FIG. 14, the same components as those of FIG.

  In the present embodiment, for example, the color chart ID obtained by the color chart processing apparatus of FIG. 1 is converted into the color chart ID of another color chart. For example, in the field of the printing industry, it is common to use a color chart unique to printing (DIC color chart) for color charts in other fields. The present embodiment corresponds to such a case.

  The color chart determination device 131 receives information on determination illumination light information, color chart type, and color chart ID. The color chart determination device 131 obtains the subject spectrum from these pieces of information. The color chart determination device 131 also receives converted color chart type information, and reads color chart spectrum data of the color chart based on the converted color chart type information from the color chart spectrum database unit 4. The color chart determining device 131 performs the calculation of the above equation (1) based on the calculated subject spectrum, the read color chart spectrum data, and the converted color chart illumination information used for determining a new color chart, thereby converting the converted color. The color chart ID of the color chart specified by the vote type information is calculated and output.

  In the embodiment configured as described above, the color chart determination device 131 receives the color chart determination result when the predetermined determination illumination light is used for the color of the predetermined subject. The color chart determination device 131 obtains the original determination subject spectrum from the input color chart ID. The color chart determination device 131 calculates the color chart ID when the color chart specified by the converted color chart type information is used by performing the calculation of the expression (1) on the determined determination subject spectrum. Output.

  As described above, in the present embodiment, the color chart ID of a predetermined color chart can be converted to the color chart ID of another color chart.

  FIG. 15 is a block diagram showing a color chart processing apparatus according to the sixth embodiment of the present invention. In FIG. 15, the same components as those of FIG.

  In the present embodiment, the fifth embodiment is applied to the third embodiment. The example in FIG. 15 shows an example of conversion from an interior color chart to a DIC color chart, but any color chart stored in the spectrum database can be converted. Is clear.

  This embodiment is different from the third embodiment in that a color chart conversion device 132 is added to the configuration of FIG. The interior color chart spectrum database unit 133 and the DIC color color chart spectrum database unit 134 have a function of outputting only the spectrum data related to the interior color chart or the spectrum data related to the DIC color color chart from the color chart spectrum database unit 20 of FIG. It is limited.

  The color chart conversion device 132 is provided with the color chart ID from the color chart determination device 31 and is also provided with information on the color chart illumination spectrum used for the color chart determination of the color chart determination device 31. In addition, it is assumed that information indicating the DIC color chart is input to the color chart converter 132 as the converted color chart type information.

  Based on the input color chart ID, color chart illumination spectrum, converted color chart illumination spectrum, and spectrum data of the DIC color chart, the color chart conversion device 132 performs the calculation of the following equation (3). It is determined that n that minimizes φ (n) in equation (3) is the color chart ID of the corresponding DIC color chart. The color chart conversion device 132 outputs the obtained color chart ID as a conversion color chart ID.

φ (n) = | CN1 (N1, λ) × jL1 (λ) −CN2 (n, λ) × jL2 (λ) | ² (3)
Where λ: wavelength n: color chart ID
CN1 (N1, λ): Color chart spectrum data whose interior color chart ID is N1 N1: Interior color chart ID
CN2 (n, λ): Color chart spectrum data with DIC color chart ID n jL1 (λ): Determination illumination light spectrum of interior color chart (color chart illumination spectrum)
jL2 (λ): D5 C color chart determination illumination light spectrum (color chart illumination spectrum)
When the conversion color chart ID and the color chart ID from the color chart determination device 31 are supplied to the color chart ID display unit 19 in FIG. 4, the interior color chart and the DIC color chart are used for the color of the subject 1. Each color chart ID can be displayed.

  Thus, in the present embodiment, it is possible to convert a color chart ID once obtained into a color chart ID of a completely different color chart. In this case, since the color chart ID is converted by calculation based on the spectrum information of the color chart ID, the determination illumination light for obtaining the converted color chart ID is the color chart determination before conversion. It is not necessary to be the same as the determination illumination light used in the above, and any determination illumination light can be set.

  FIG. 16 is a block diagram showing a color chart processing apparatus according to the seventh embodiment of the present invention. In FIG. 16, the same components as those in FIG.

  In this embodiment, the color chart processing apparatus in the third embodiment is used. There are many color charts as color charts, and there are many colors in the color chart. For this reason, it is difficult to easily confirm the color of the specific color chart ID of the desired color chart. Conventionally, there has been no device that can easily check the color of an arbitrary color chart ID. In the present embodiment, the color of the specified color chart ID can be displayed under illumination light at the place or under arbitrary illumination light.

  The display processing unit 141 employs a color chart ID designation device 142 and a display color calculation device 143 instead of the color chart DB designation device 18 and the color chart determination device 31 of the color chart determination unit 30 of FIG. The display color calculation device 143 includes an observation spectrum calculation device 144 and a chromaticity calculation device 145, and the determination illumination light spectrum is given to the observation spectrum calculation device 144 from the determination illumination light specifying device 33. Yes.

  The color chart ID specifying device 142 specifies color chart spectrum data to be read from the color chart spectrum database unit 20 based on, for example, a user operation, and is a selection for specifying the color chart and the color chart ID. Output a signal. The color chart spectrum database unit 20 outputs color chart spectrum data based on the input selection signal to the observation spectrum calculation device 144 of the display color calculation device 143.

The observation spectrum calculation device 144 obtains the spectrum under the determination illumination light of the color of the color chart ID designated by the color chart ID designation device 142 by the product operation of the determination illumination light spectrum and the color chart spectrum data. The observation spectrum calculation device 144 outputs the obtained spectrum to the chromaticity calculation device 145. The chromaticity calculation device 145 converts the input spectrum into chromaticity information (XYZ, xy, L ^* a ^* b ^*, etc.), and outputs it to the color chart display unit 146 as chromaticity data. .

  FIG. 17 is a block diagram showing a specific configuration of the color chart display unit 146 in FIG.

  The example of FIG. 17 is an example in which six LEDs that display six primary colors are employed as the color chart display unit 146. As shown in FIG. 17, the color chart display unit 146 includes a multi-primary color conversion unit 147, LEDs 150-1 to 150-6, a projection optical system 151, and a display unit 152.

  The multi-primary color conversion unit 147 includes an LED characteristic data storage unit 148 and a six primary color conversion unit 149, and chromaticity data from the chromaticity calculation device 145 is input to the six primary color conversion unit 149. . The LEDs 150-1 to 150-6 have different emission spectral characteristics from each other, and can generate light of different primary colors. The LED characteristic data storage unit 148 stores such characteristics of the LEDs 150-1 to 150-6, and the six primary color conversion unit 149 is disclosed in Japanese Patent Laid-Open No. 2000-253264 or Japanese Patent Laid-Open No. 2000-338950. The chromaticity data is converted into signals (primary color signals) indicating six primary color values by a known conversion process described in detail. The six primary colors include, for example, red, blue, green, cyan, yellow, magenta, and the like.

  The six primary color signals from the six primary color conversion unit 149 are given to the LEDs 150-1 to 150-6 that emit the corresponding color lights, respectively. The LEDs 150-1 to 150-6 emit light according to the input primary color signals. Light emitted from the LEDs 150-1 to 150-6 is projected onto the display unit 152 via the projection optical system 151.

  FIG. 18 is an explanatory diagram showing a specific configuration of a cross section of the display unit 152. As illustrated in FIG. 18, the display unit 152 includes a lenticular lens 153 and a diffusion plate 154. The primary color light from the LEDs 150-1 to 150-6 that is incident from the lenticular lens 153 side is substantially parallel light and is emitted from the diffusion plate 154 side. By combining the six primary colors of light on the display unit 152, it is possible to display multi-primary colors with uniform colors over the entire display surface of the display unit 152. For example, a screen (display screen) having the same size as the color chart is used as the display unit 152.

  Note that, as shown in FIG. 17, the display unit 152 is a rear projection type, and thus may be affected by the directivity of the screen. For this reason, the directivity is corrected by forming a screen by the lenticular lens 153 and the diffusion plate 154 on the display unit 152.

  According to such a configuration, the user specifies the color chart ID of the color to be confirmed by the color chart ID specifying device 142. The selection signal from the color chart ID designating device 142 is given to the color chart spectrum database unit 20, and the color chart spectrum database unit 20 obtains the color chart spectrum data (spectral reflectance) of the designated color chart ID as the observation spectrum calculation device 144. To give. The determination illumination light specifying device 33 selects one of an external light spectrum based on the external light detected by the illumination sensor 35 or a spectrum stored in the illumination spectrum data storage unit 34 based on, for example, a user operation, and determination illumination The light spectrum is given to the observation spectrum calculation device 144. The observation spectrum calculation device 144 obtains the spectrum of the color of the specified color chart ID by product operation of the color chart spectrum data and the determination illumination light spectrum, and outputs the spectrum to the chromaticity calculation apparatus 145.

  The chromaticity calculation device 145 converts the input spectrum into chromaticity information. The chromaticity calculation device 145 outputs the obtained chromaticity data to the color chart display unit 146. The multi-primary color conversion unit 147 of the color chart display unit 146 converts the chromaticity data into six primary color signals. Each primary color signal is supplied to the LEDs 150-1 to 150-6, whereby each primary color light is emitted. Each primary color light is displayed on the display unit 152 via the projection optical system 151.

  Since the chromaticity data is converted into six primary color signals and the display colors are generated by synthesizing the emitted lights of the LEDs 150-1 to 150-6 emitting the six primary color lights, the displayable color gamut is sufficiently wide. By such multi-primary color display, accurate color reproduction based on the color chart ID can be performed.

  As described above, in the example of FIG. 16, the color chart color under the illumination light of the external light can be faithfully reproduced and displayed. Since the color sensor can reproduce the color of the color chart according to the illumination spectrum of the external light by the illumination sensor, it can be displayed on the screen as if the actual color chart is on the spot. Further, as the determination illumination light spectrum, not only spectrum data from the illumination sensor but also spectrum data stored in the illumination spectrum data storage unit can be used. In this case, the color chart color under arbitrary illumination light can be displayed.

  In addition, by making the screen size of the color chart ID display unit that displays multiple primary colors substantially the same size as the actual color chart, more accurate determination can be made. It is obvious that a hologram screen or the like may be used instead of the lenticular lens, and the diffuser plate may be made strong against external light by putting a tint or having a mirror surface. The display unit may be constructed by a device such as a self-luminous FED or an organic EL. Also, an LCD or a multi-primary color display device described in Japanese Patent Application Laid-Open Nos. 2000-253263 and 2000-338950 You may comprise.

  Furthermore, by combining the fourth embodiment shown in FIG. 8 and the application example of FIG. 16, it is possible to display the color of the determined color chart ID in correspondence with the display of the image of the subject.

  That is, by adopting a configuration similar to the display color calculation device 143 in FIG. 16 instead of the determination image creation unit 76 in FIG. 8, chromaticity data corresponding to the color chart ID determined for each pixel of the subject image. Can be obtained. In this case, the display device 161 shown in FIG. 19 is employed. The example in FIG. 19 shows an example in which the same image display as in FIG. 9B is performed on the display device 161. In FIG. 19, as in FIG. 9, the difference in color is indicated by the difference in hatching.

  A display device 161 shown in FIG. 19 has an image display area 162 for displaying a subject image in multiple primary colors, and a color chart display area 163 showing an example of each color in the color chart. Similar to FIG. 9B, the image display area 162 displays a color corresponding to the color chart ID so as to overlap the subject image. In this case, in the example of FIG. 9B, a plurality of colors are used for simply distinguishing a plurality of color chart IDs, whereas in the example of FIG. 19, similarly to the color chart display unit 146 of FIG. When the color specified by the color chart ID is viewed under the determination illumination light or under arbitrary illumination, the color itself is displayed.

  Furthermore, it is also possible to use the multispectral camera shown in FIG. 10 or FIG. 13 as a color chart display unit that displays the color specified by the color chart ID. 20 and 21 are explanatory diagrams showing an example of this case. 20 and 21, the same components as those in FIG.

  A multispectral camera 171 shown in FIG. 20 includes an imaging lens system 92 that images light from the subject 1, a CCD 93 that converts an optical image of the subject into an electrical signal, and a multicolor LED illumination device that can illuminate the subject. 91. In addition, the multispectral camera 171 includes an illumination sensor 172 for measuring an external light spectrum and a viewfinder 173 that is a display unit capable of confirming designation of a color chart ID and the like. Further, the multispectral camera 171 is provided with a shielding member 89 for blocking external light incident on the subject at the tip.

  In the present embodiment, a screen 174 is arranged at the front end opening of the shielding member 89. As the screen 174, for example, a screen having the same configuration as that of the display unit 152 of FIG. 18 can be employed. For example, the screen 174 is attached to a portion where the tip of the shielding member 89 is in contact with the subject to be originally measured.

  According to such a configuration, the primary color signal is supplied to the multicolor LED illumination device 91, and the primary color lights of the multicolor LED illumination device 91 are combined on the screen 174, so that the color chart display unit 146 of FIG. Similarly, the same color as when the color of the designated color chart ID is seen under the determination illumination light can be displayed on the screen 174.

  FIG. 21 shows another example of the multispectral camera that displays the color specified by the color chart ID. In FIG. 21, the same components as those in FIG. As shown in FIG. 21, in the multispectral camera 175, a screen 176 is arranged at a position where the shielding member 89 at the tip is separated by a predetermined distance. Each primary color light from the multicolor LED lighting device 91 is projected on the screen 176. As the screen 176, standard white paper or the like is employed.

  In the example of FIG. 20, primary colors of the LED illumination device 91 irradiated from the back surface of the screen 174 are combined on the screen 174 and the color displayed from the front surface of the screen 174 is observed. On the other hand, in the example of FIG. 21, primary colors of the LED illumination device 91 emitted from the front surface of the screen 176 are combined on the screen 176 and the color displayed from the front surface of the screen 176 is observed. 21 shows an example in which the primary color light from the LED illumination device 91 is projected onto the screen 176, but the projected color is projected onto the surface of the determination target coating plate or printing paper, and the color of the designated color chart ID is displayed. Obviously, it may be displayed.

1 is a block diagram showing a color chart processing apparatus according to a first embodiment of the present invention. The block diagram which shows the color chart processing apparatus which concerns on the 2nd Embodiment of this invention. The block diagram which shows the structure added to 2nd Embodiment. The block diagram which shows the color chart processing apparatus which concerns on the 3rd Embodiment of this invention. Explanatory drawing which shows the example which comprised the color detection part, the color chart determination part, the color chart spectrum database part, and the color chart ID display part with small terminals, such as PDA. The block diagram which shows an example in case a color chart spectrum database part exists in a remote place with respect to a color chart determination part. The block diagram which shows the example which provided the color chart determination apparatus in the data center of a remote place. The block diagram which shows the color chart processing apparatus which concerns on the 4th Embodiment of this invention. Explanatory drawing for demonstrating the operation | movement of 4th Embodiment. Explanatory drawing which shows the structural example at the time of using an illumination type multispectral camera. 11 is a flowchart showing program processing by the personal computer 99 in FIG. The block diagram which shows the application example of a color chart processing apparatus. Explanatory drawing which shows the example at the time of comprising the example of FIG. 12 using the illumination type multispectral camera similar to FIG. The block diagram which shows the color chart processing apparatus which concerns on the 5th Embodiment of this invention. The block diagram which shows the color chart processing apparatus which concerns on the 6th Embodiment of this invention. The block diagram which shows the color chart processing apparatus which concerns on the 7th Embodiment of this invention. The block diagram which shows the specific structure of the color chart display part 146 in FIG. FIG. 18 is an explanatory diagram illustrating a specific configuration of a cross section of the display unit 152 in FIG. 17. Explanatory drawing which shows the other example of the color chart display part 146. FIG. Explanatory drawing which shows the example of the multispectral camera which displays the color designated by color chart ID. Explanatory drawing which shows the other example of the multispectral camera which displays the color designated by color chart ID.

Explanation of symbols

    DESCRIPTION OF SYMBOLS 1 ... Subject, 2 ... Color detection part, 3 ... Color chart determination apparatus, 4 ... Color chart spectrum database part.

      Agent Patent Attorney Susumu Ito

Claims (15)

Information related to the spectral reflectance of the predetermined color included in the predetermined color chart and information on the determination illumination light are input, and the predetermined color included in the predetermined color chart is calculated using the input information. Spectrum calculation means for obtaining a spectrum under the determination illumination light;
A color chart processing apparatus comprising: chromaticity calculation means for converting a spectrum of the predetermined color obtained by the spectrum calculation means into chromaticity information and outputting chromaticity data.   Information related to spectral reflectances of a plurality of colors included in one or more color charts is stored, and information for specifying a predetermined color included in the predetermined color chart is given, and the specified 2. The color chart processing apparatus according to claim 1, further comprising color chart spectrum database means for outputting information related to the spectral reflectance of a predetermined color.   The color chart processing apparatus according to claim 1, further comprising determination illumination light specifying means for supplying information of the determination illumination light to the spectrum calculation means.   4. The color chart according to claim 3, wherein the determination illumination light specifying unit includes at least one of an illumination sensor that detects external illumination light and an illumination light information storage unit that stores spectrum information of the illumination light. Processing equipment.   The said determination illumination light designation | designated means selects either one of the output of the said illumination sensor, or the information read from the said illumination light information storage means, and supplies it to the said spectrum calculating means. Color chart processing device.   2. The color chart processing apparatus according to claim 1, further comprising display means for displaying a color based on chromaticity data from the chromaticity calculation means.   The said display means displays the color based on the chromaticity data from the said chromaticity calculation means by synthesize | combining four or more illumination light from which a spectral characteristic mutually differs. Color chart processing device.   2. The color chart processing apparatus according to claim 1, further comprising display means for displaying the color of the subject image based on chromaticity data from the chromaticity calculation means. Photographing means for photographing a subject and obtaining a color signal of the subject;
Information relating to the spectral reflectance of each color included in the predetermined color chart and information on the determination illumination light are input, and the determination illumination light is calculated for each color included in the predetermined color chart by calculation using the input information. Spectrum calculation means for obtaining a spectrum below;
The spectral reflectance of the subject is obtained from the subject color signal and the photographing illumination information obtained when the subject color signal is acquired, and the subject color signal is obtained using the obtained spectral reflectance and newly set subject rendering illumination information. By comparing the reproduced color signal of the subject with the spectrum of each color obtained by the spectrum calculation means, it is determined which color in the predetermined color chart the color signal of the subject approximates. Determination means for determining;
A color chart processing apparatus comprising: chromaticity calculation means for converting a color spectrum of a determination result by the determination means into chromaticity information and outputting chromaticity data.   The color chart processing apparatus according to claim 9, further comprising display means for displaying the subject image in a color based on chromaticity data from the chromaticity calculation means.   The color chart processing apparatus according to claim 9, wherein the display unit uses illumination light of the photographing unit that obtains a plurality of spectral images with built-in illumination light. Information related to the spectral reflectance of the predetermined color included in the predetermined color chart and information on the determination illumination light are input, and the predetermined color included in the predetermined color chart is calculated using the input information. A spectrum calculation procedure for obtaining a spectrum under the determination illumination light;
A color chart processing method comprising: a chromaticity calculation procedure for converting the spectrum of the predetermined color obtained by the spectrum calculation procedure into chromaticity information and outputting chromaticity data.   The color chart processing method according to claim 12, further comprising a display procedure for displaying a color based on the chromaticity data obtained by the chromaticity calculation procedure. On the computer,
Information related to the spectral reflectance of the predetermined color included in the predetermined color chart and information on the determination illumination light are input, and the predetermined color included in the predetermined color chart is calculated using the input information. Spectrum calculation processing for obtaining a spectrum under the determination illumination light;
A color chart processing program for executing a chromaticity calculation process for converting the spectrum of the predetermined color obtained by the spectrum calculation process into chromaticity information and outputting chromaticity data. On the computer,
The color chart processing program according to claim 14, further executing display processing for displaying a color based on the chromaticity data obtained by the chromaticity calculation processing.

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