Color-Matchingแสงสีสี คือลักษณะความ

Color-Matching <br><br>Light <br>color is characterized by the intensity of light that is visible to the eye color. Through the recognition process by which information from a bud. The eye can be analyzed through the light energy then. Through the senses of sight Via switching centers in the brain to visualize. Creating an image or vision is that the information gained through analysis to distinguish perception of things around. <br>Measuring light waves visible to the human begins. Century 19 Wright in 1928 (WDWright) and Roskilde (J.Guild) achieved success in measuring the wavelength of light is important. And is accredited by the Commission Internationale de l'Eclairage or CIE, an organization that plays an important role in determining the standard color. <br>The function of the human eye. (Color-Matching Function)<br>ฟังก์ชั่นนี้คือค่าไตรสติมูลัส (Tristimulus) ของสเปกทรัมที่สัมพันธ์กับความยาวคลื่น ฟังก์ชั่นซึ่งสามารถนาไปใช้แทนความไวของตามนุษย์ได้ ประกอบด้วย 3 ชุด สอดคล้องกับเซลล์รูปกรวยในตามนุษย์<br><br>RGB Color Matching<br>Function<br> <br><br>ค่ามาตรฐานที่แทนความไวแสงของตามนุษย์ของแสงสีขั้นต้น ซึ่งกาหนดโดย CIE ในปี 1931<br>• Red (R): 700 nm<br>• Green (G): 546.1 nm<br>• Blue (B): 435.8 nm<br>จากภาพจะเห็นว่าในช่วงคลื่น 440-545 nmคลื่นแสง R มีค่าไตรสติมูลัสอยู่ในช่วงลบ ส่วนคลื่นแสง G อยู่ในช่วงลบเพียงเล็กน้อย ในช่วงคลื่นที่มากกว่า 380-435 และ คลื่นแสง B ก็อยู่ในช่วงลบเพียงเล็กน้อย เช่นกัน นั่นคือ ในช่วงคลื่นที่มากกว่า 550-655 ซึ่งการทราบค่าต่างๆ เหล่านี้ จะเป็นประโยชน์ในการนามาสร้าง Color Space หรือปริภูมิสี<br>Color Matching Experiments<br> <br><br>ในปี 1850 James Clerk Maxwell ได้สร้างการทดลองการ Matching สีขึ้น ซึ่งสามารถเข้าไปทดลองในเว็บไซต์ http://graphics.stanford.edu/courses/cs178-10/applets/colormatching.html ได้<br><br><br><br><br> <br> <br><br> <br><br><br>จากการทดลองพบว่าแสงสีทั้ง 3 สี ไม่สามารถผสมกันออกมาได้สีทุกสีถ้าค่าไตรสติมูลัสอยู่ในช่วงบวกทั้งหมด แต่ถ้ามีการเพิ่มบางแสงสีให้อยู่ในค่าลบก็จะสามารถผสมออกมาเป็นสีนั้นได้ ดังเช่นตัวอย่างในรูปด้านบน เป็นต้น<br>CIE Space forColor Matching<br>จาก RGB Color Matching Function ในรูปทางด้านซ้าย ซึ่งจะเห็นว่ามีช่วงคลื่นที่อยู่ในด้านลบ ทาให้การคานวณสีออกมาในเชิงตัวเลขนั้นทาได้ยาก เพราะในตอนนั้น CIE ต้องการนาเสนอแผนภูมิสีออกมาในเชิงของตัวเลขเพื่อให้สามารถคานวณและใช้งานได้ง่าย ดังนั้น จึงมีการพัฒนามาเป็น XYZ Color Matching Function ซึ่งค่าไตรสติมูลัสจะมีค่าบวก โดยมาจากการคานวณสมการเมทริซ์ ซึ่ง XYZ ก็คือการรวมกันของ RGB<br><br><br> <br><br> <br><br>The Benefits of Color Matching <br>As mentioned above, the paint color matching so as to obtain a color space or color space of the color vision of the human eye. The advantage of this is needed to determine the color of each color as well. Because each system has a range of different colors. For example In the shooting (DSLR) is a mode select profile image that will be used during the SRGB or AdobeRGB which has different sRGB as the color space to a color space designed to display on the monitor screen and prints of Adobe RGB. a color space that is designed to print 4-color CMYK color gamut wider than sRGB, which would have increased the scope of the colors cyan-green and so on.<br> <br><br><br>It can be seen that if we choose the color of the images we shot the SRGB or AdobeRGB monitor, if we can not produce the range of colors we choose. We will not be able to see the extent of color monitors, we do not. So I see that learning about the extent of that color. It will make us could be applied in many fields. Effectively

color-matching<br><br>The color light is characterized by the light intensity that appears to be seen in color by the eye recognition process, which receives data from the eye, through the analysis process of optical energy data, through a sense of vision through the zero-switch in the brain to the visual center. Creating an image or vision is that data has been analyzed to distinguish us around the measurement of the light spectrum that the human can see begins in. The 19th century in the year 1928 Wright (W.D.Wright) and the Guild (J.Guild) achieved a significant measure of the light spectrum and is certified by Commission Internationale de l'Eclairage Color-Matching function is the Traisteni value. The tristimulus of the specification associated with the wavelength. Functions, which can be used in place of human eye sensitivity. Comprises of 3 sets corresponding to cone cells in the human eye.<br><br>RGB Color Matching Function<br> <br><br>The standard value represents the sensitivity of the human eye of the basic color light, which is determined by the CIE in the year 1931. • Red (R): 700 nm • Green (G): 546.1 nm • Blue (B): 435.8 nm from the image is seen that during the 440-545 nm, the R-light is traisteni. The G-wave is in a slightly negative range over the spectrum of more than 380-435, and the beam of light B is also in a small negative range as well, that is, in more than 550-655 waves, these know-how can be useful when creating color Space or color Matching Experiments.<br> <br><br>In the year 1850, James Clerk Maxwell has created a Matching-colour trial, which can be tried on http://graphics.stanford.edu/courses/cs178-10/applets/colormatching.html website.<br><br><br><br><br> <br> <br><br> <br><br><br>The test showed that the three colors of light cannot be mixed out in all colors if the Traisteni value is in the whole positive range. If some light is added to a negative value, it can be mixed out in that color. As an example in the image above, the CIE Space forColor Matching from the RGB Color Matching Function in the image on the left is seen as the wave range is in the negative side. It can be difficult to get a number of Varanasi, as it is hard to have a color chart out of the numbers, so that it can be calculated and easy to use. Therefore, it is developed into the XYZ Color Matching Function, in which the Traisteni value is positive by the calculation of the, the XYZ is the combination of RGB.<br><br><br> <br><br> <br><br>Benefits of doing Color Matching, as mentioned above, that the color matching to get the colour space or color space of the eyes of the human eye, from which this benefit can be set sides the color fields of each color system. Each system has different color boundaries. For example, to take a photo (DSLR) mode, select the profile of the image to choose between SRGB or AdobeRGB, which is different: sRGB is color space with a color gamut designed. For display on monitor and image compression, Adobe RGB is a color space designed to print the 4-colour CMYK, which has a wider color gamut than sRGB, adding a cyan-green color gamut.<br> <br><br><br>It can be seen that if we choose the color gamut of the images we shoot as AdobeRGB or SRGB. If our monitors are not able to be manufactured to the extent of the colors we choose. We will not be able to see the areas of the color monitored by us, so we can see that learning about the boundaries of the colors allows us to be able to apply in various aspects effectively.

Color matching<br>Light ground<br>Color is the color of visible light. By receiving data. The process of analyzing light data. By touching the sky Through the visual center. Image or vision is through the analysis of information about the surrounding environment.<br>Human caesarean section can be seen in 19288, Wright holmium W.D Wright □ and association holmium j.guide. Recognize this and have been certified by the international anti dumping commission or ciek, the role of the organization. Color standard<br>Human coordination function<br>This function is the spectrum of the nanosecond holmium trimues41 and the relative wavelength. Function, which is composed of three series corresponding to the sensitivity of rich human cells.<br>RGB color matching<br>Functionalism<br>Preliminary suspected human sensitivity of CIE measurements in 1931<br>Red R 41 "70nm"<br>Green, G 41546.1 NM<br>Blue "B" is 435.8 NM<br>It can be seen from the image that there is a negative peak in the 440-5555 NMR wave and a negative peak in the G wave. There is also a small negative range for waves over 380-435 and B, i.e. 5500-655. These will help create color spaces or spaces.<br>Color matching experiment<br>In 1850, James Clark Maxwell created an experiment that matched colors, which led to an experiment on the website. HTTP [accounting subject] stanford.edu course cs178-10 small program account color matching.<br>Experimental results show that all three colors are suspect. Can't mix all colors if at all times. But if the color in the world, it can mix. For example, the picture above.<br>Color matching space of CIE<br>In the RGB color matching function on the left, you can see the negative range. This is very difficult because CIE needs to be in the color of the digital map. stick<br>