Digital Image Correction and Enhancement is a set of technologies related to producing an altered image in a variety of frequency spectra. The objective of these technologies is to render an image more usable by Fourier or other filtering techniques. These technologies were most actively advanced in the 1960s and early 1970s in the fields of strategic reconnaissance and medical electronics.

The term "Digital ICE" initially applied specifically to a proprietary technology developed by Kodak's Austin Development Center (formerly Applied Science Fiction) that automatically removes surface defects, such as dust and scratches, from scanned images.

Technology

The ICE technology works from within the scanner, so unlike the software-only solutions it does not alter any underlying details of the image. Subsequent to the original "Digital Ice" technology which used infrared cleaning, additional image enhancement technologies were marketed by Applied Science Fiction and Kodak under similar and related names, often as part of a suite of compatible technologies. The ICE technology uses a scanner with a pair of light sources, a normal RGB lamp and an IR lamp, and scans twice, once with each lamp. The IR lamp detects the dust locations with its unique detection method and then inpainting is applied based on this data afterwards. The general concept is to subtract the position of scratches and dust from the RGB image.

Limitations of Digital ICE

Digital ICE is used to detect scratches and dust during transparent film scan and not applicable for opaque document scanning. Where Chromogenic black and white films are supported by Digital ICE, other black and white films containing silver halides are not. This is because the long wave infrared light passes through the slide but not through dust particles. The silver particles reflect the infrared light in a similar manner to dust particles, thus respond equally in visible light and infrared light. This phenomenon also prevents Kodak Kodachrome slides from being scanned with Digital ICE.

Info courtesy of Wikipedia