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Unit 2. Digital image (digital image format)

Activity ( digital image format )
RAW (format chosen by the student)
owner or self-Format:
RAW format, is available only in cameras
sophisticated digital, suitable for professional photographers (OJO, can only be created by digital cameras, no software).

-number of colors that supports the format:
This format offers the highest quality and the pixels containing raw as purchased (usually 36 to 48 bits / pixel) your files are larger very large file, though, generally use compression.

- Applications format (common use made of it):
Assurance in a warm image higher than the JPG, offering greater clarity / focus, better contrast, better lighting, colors appear best represented (the picture shows as the camera sensor captured.) Contains much more information and it will be manipulated to adjust lights and colors. Files are read-only.

-application that can open and edit a file in this format:
Adobe Camera Raw. Adobe Photoshop CS2 and CS3 contain extensive support for RAW in Adobe Photoshop Lightroom. In addition, the Windows Photo Gallery and Windows Live can see any raw image format if WIC codecs are installed.


http://webdelprofesor.ula.ve/humanidades/raymond/?q=node/27
Nicholas Robinson.

http://robinonicola.blogspot.com/

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UNIT 1. DIGITAL IMAGE

Activity Summary. Today
to find in the digital age (digital photography, digital audio, digital video, represented by a series of electrical pulses based on a numerical system composed of zeros and ones) and the Internet, it is important to understand and consider all information that can be created through it and also the world allows us to exchange information and in turn facilitate the storage, shipping and replay it. Differences

Digital-Analog.
analog format consists of an infinite number of data points, making it impossible to make an exact copy of the original, so the copies being made of the same content are deteriorating. An example is video in VHS or Betamax tapes. Another example is an analog format to acetate disc used to store sounds. There are also photographs of traditional photographic paper.
These terms analog and digital were introduced into the daily lives of people with the coming of new technologies. However, both have their main features: Digital copies are perfect, and can be copied thousands of times without error, and stored materials where such information is not suffering from physical exhaustion (CD ROM, pendrivers, among others). Analog copies are perfect since it is impossible to make an exact copy of it (for their infinite number of data points), these in turn can wear because the material where the information recorded or stored will deteriorate over time (audio tapes and vhs vinyl disk etc.).

Basic Types of digital images:
-bitmap (points or pixels) can store large files depending on the size of the image to its quality or definition. Where else should consider the resolution of it, which is given by the density of dots, or pixels, which have an image on a particular measure of length (an inch or an inch) and where the density or the size of the image involves an important role, because such images have a structure containing data that allows them to be stored in readable form for the type of program that generated it and thereby establish the use of a certain format (BMP, GIF, TIFF, JPEG, PCX, IFF, among others, which use a bitmap).

-Vector (geometric lines) can store files very compact, does not depend on the size of the image to its quality or definition (except for a picture.)

Beyond all this, it is necessary to consider every element that underlies or involves the world of digitization, as the same We will help the development in the current environment of new information technologies and communication.

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Unit 2. COLOR THEORY

Activity: Exhibition. RGB color model.
Topic: RGB (additive synthesis system based on red, green and blue)
Members:
-Karina Chidiak karinachidiak14.blogspot.com
-Salome Garcia, Nicholas Robinson http://salomeyah.blogspot.com
http:/ / robinonicola.blogspot.com /

all possible colors that can be perceived in electronic systems (TV, monitors, digital cameras, video projectors, etc.) are created by mixing three colors, called Colors too light or additive primary colors, which are red, green and blue. This is what is known as the system or RGB color model (red, green, blue), where the possible colors derived from the intensity of each color, which combines this system to give out an array of different colors and with different quantitative traits. However, when no light color is present, there is nothing to perceive, therefore there is black.

Model What is RGB?
The RGB color model is itself an additive color model, in which red, green, and blue are added and mixed in various ways to reproduce a wide number of colors. The model name comes from the initials of the three (in English terminology) additive primary colors, red (red), green (green) and blue (blue). The principal purpose or function of the RGB color model is for the detection, representation, and display pictures in electronic or computer systems, such as televisions and computers, but has also been used in conventional photography. Typical devices RGB color model are TV sets of various technologies (CRT, LCD, plasma, etc..), And video cameras, image scanners, computers, mobile phones, video projectors and more.

what basis?
to indicate what proportion of each color mix, assigning a value to each of the primary colors so that the value 0 is not involved in the mix. The higher the value is understood that brings more intensity to the mix.
Similarly, each of the three mixed colors are represented numerically in terms of its intensity from 0% to 100%, the percentage is indicated by a number between 0 and N where 0 means 0% intensity and N means 100%. Therefore it is necessary to understand a nomenclature based on these values \u200b\u200b
Therefore the rate at which we mix each color on screen is determined by the value of each primary color, so the value 0 (zero) means that is not involved in the mix and, as that value increases, it is understood that brings more intensity to the mix. Thus, a color, it is represented in the system through a set decimal RGB (R, G, B) or a hexadecimal # RRGGBB group.
- syntax in the group or decimal , the intensity of each of the components is measured on a scale ranging from 0 to 255. Therefore, the red is obtained (R = 255, G = 0, B = 0), the green (R = 0, G = 255, B = 0) and blue (R = 0, G = 0, B = 255), obtaining in each case a result color monochromatic.
- in the group or hexadecimal syntax , the intensity of the components is measured on a scale of 3 pairs of values: 1 pair of values \u200b\u200bfor red, 1 pair for 1 pair for green and blue. The scale for each value ranging from 0 to 9 continuing with the letters A through F, so that 0 corresponds to the lowest and highest F value. Then be written more saturated red # FF0000 (ie R = FF, G = 00, B = 00), where the first pair of values \u200b\u200b(FF) provides the maximum red, and 2 pairs following (00) and (00), indicate the absence of green and blue. Therefore, the green color and write # 00FF00 Blue # 0000FF (When pure).


How It Works
This color space is represented in the Photoshop color picker.
RGB images use three colors to reproduce on screen up to 16.7 million colors. RGB is the default mode for images in Photoshop. Computer monitors always display colors with RGB. This means that working with different color modes such as CMYK, Photoshop temporarily converted to RGB data for display.
Because the RGB colors combine to create white, they are also called additive colors. Add all these colors together creates white, ie, all lengths of visible wavelengths are transmitted back to the eye. Additive colors are used for lighting, video and monitors. The monitor for example, creates color by emitting light through red phosphors, green and blue.
Various electronic systems such as scanners and monitors are based on this model, so it is a natural model for describing colors on a computer, especially when working with scanned images. The value of each "channel" (red, green or blue) can range from 0 (no color) to 255 (maximum color saturation). The RGB color is sometimes also called 24-bit color or millions of colors. It is essential that knowledge management for best practice in audiovisual systems today, whether at the time of doing any digital or electronic such as animation, video in general, digital photography among others.

Conclusion.
Ultimately, as RGB additive color model, is given as more red, green and blue is added, the more they look like the color white. When you mix the same amount of red, green and blue, always get a neutral gray. To darken a color, you must remove the same amount of the three colors. Different electronic systems such as scanners and monitors are based on this model, so it is a natural model for describing colors a team, especially when working with scanned images. The value of each "channel" (red, green or blue) can range from 0 (no color) to 255 (maximum color saturation). The RGB color is sometimes also called 24-bit color or millions of colors. It is essential that knowledge management for better practice of audiovisual systems today, whether at the time of doing any digital or electronic such as animation, video in general, digital photography among others.

rgb Model

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