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Digital Imaging is a process where an electronic photograph, scanned document or image is converted into a series of electronic points called pixels. Pixels is an acronym for “picture elements”.

After the image is converted, or digitized, it is stored on a memory storage device that May be a hard drive or a kind of electronic storage device like a stick of memory. Pixels are stored in a compressed format to save storage space.

Since each pixel is being created, it is assigned a color value, a value called tonal, black, white, shades of gray, or a color itself. These pixels must be processed by software to enable them to be called and considered a real image later.
Traditional cameras capture images on film, while digital cameras use an electronic chip known as the indictment a coupling device (CCD). The CCD is actually a grid of miniature light-sensitive diodes. These diodes convert photons (light) that strikes a electrons (electrical impulses). The technical name of these diodes is “photosite.” The best is the light that hits the photosite more electrical load that is produced.

After the conversion of photons into electrons, a mini-computer, located inside the device, reads the electric value stored in each photograph. Afterwards, an analog-digital converter transforms the stored electric worth a numerical value. These numerical values are then stored on camera memory storage device. When these numbers are recalled by software and displayed on a screen, they reproduce the image that was originally captured by the digital camera or input device.

The digital image that is created by the CCD is enormous. It is much too big to be easily stored in the relatively small amount of storage space that is available to a digital camera. Accordingly, the computer camera compresses the image to make it smaller.

There are two basic methods for achieving this compression. The first method takes advantage of repetitive patterns in the image. For example, if you take a picture of an airplane flying in the sky, a large part of the image is a piece of blue sky. The device recognizes that there are several parts of the image containing the same digital information, he recorded a single piece of heaven. Then, it can create a map to tell him where the rest of heaven belongs. When the image is displayed ultimately the sky appears exactly the same as it did in the original image when it was first taken into account. The only difference is that all storage requirements have been reduced through the intelligent camera mapping techniques.

The other method uses a procedure irrelevance. This method automatically removes digital information which is not visible to the eye such an infra red light.

Digital imaging is amazing, we have only started witnessing the revolutionary changes that are still to come.