Fundamentals of electronic imaging systems: some aspects of image processing
This textbook deals with the analysis and design of imagingsystems and image processing systems. It contains in asingle volume the background material necessary forunderstanding both the physics of such systems and the wayin which the designs accomodate the visual perception of theobserver. Of central importance is the mathematics ofconverting optical images to electrical signals and viceversa, whereby it is stressed that the quality of suchconversions must be judged subjectively.The material is easily accessible to senior undergraduatesand first year students. A knowledge of elementary physics,calculus, and linear systems theory is assumed, but anextensive mathematical and statistical background is notrequired.This third edition has been updated and includes chapters oncolor and the design of improved television systems, and anappendix describing the current status of high-defintiontelevision throughout the world.
What people are saying - Write a review
We haven't found any reviews in the usual places.
Light and Optical Imaging Systems
Perception of Images
9 other sections not shown
Other editions - View all
achieved adaptive modulation addition aliasing amplitude analog aperture audio bandwidth baseband bits/pel bits/sample block broadcasting camera channel capacity chrominance coding color compatible components compression curves data rate density digital transmission display DPCM dynamic range edge effect efficiency electronic entropy error factor filters flicker frame rate frequency response function halftone HD-MAC HDTV higher horizontal image processing image quality impulse response input interference interlace interpolation intersymbol interference light linear lines luminance methods motion rendition MUSE NTSC objects OFDM optical output PALplus picture quality plane possible primaries printing produce quantization noise random ratio receivers reduced reproduction result sampling scanners scanning screen sensitivity sharpness shot noise shown in Fig single-frequency networks space spatial frequency spectral spectrum subbands television temporal terrestrial threshold tone scale transcoding transform transmitted tristimulus values tube vertical resolution video signal viewers visible visual wavelength