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Download Fundamentals of Digital Optics: Digital Signal Processing in Optics and Holography djvu

Download Fundamentals of Digital Optics: Digital Signal Processing in Optics and Holography djvu

by Leonid Yaroslavsky,Murray Eden

Author: Leonid Yaroslavsky,Murray Eden
Subcategory: Engineering
Language: English
Publisher: Birkhäuser; 1995 edition (December 1, 1996)
Pages: 362 pages
Category: Engineering and Transport
Rating: 4.3
Other formats: lrf lit mbr mobi

FREE shipping on qualifying offers. Digital Optics as a Subject Improvement of the quality of optical devices has always been the central task of experimental optics

FREE shipping on qualifying offers. Digital Optics as a Subject Improvement of the quality of optical devices has always been the central task of experimental optics. This book is an introduction to digital optics, presenting the basic concepts necessary to master working in the field of a professional level.

More by Leonid Yaroslavsky. Digital Holography and Digital Image Processing: Principles, Methods, Algorithms.

Digital Optics as a Subject Improvement of the quality of optical devices has always been the central task of experimental optics. In modern terms, improvements in sensitivity and resolution have equated higher quality with greater informational throughput. More by Leonid Yaroslavsky.

Leonid Yaroslavsky, Murray Eden. It covers image processing, holography and computer science.

Fundamentals of Digital Optics book. This book is an introduction to digital optics, presenting.

Автор: Leonid Yaroslavsky; Murray Eden Название: Fundamentals of. .This book presents problems of processing and analysis of practical 3-D data sets.

2012 Язык: English Размер: 2. 9 x 1. 0 x . 6 cm Читательская аудитория: Science Основная тема: Optics, Lasers, Photonics, Optical Devices Подзаголовок: Digital Signal Processing in Optics and Holography Рейтинг: Поставляется из: Германии.

digital signal processing in optics and holography. by L. P. I͡Aroslavskiĭ, Leonid Yaroslavsky, Murray Eden. Published 1996 by Birkhauser in Boston.

Murray Eden, Leonid Yaroslavsky. Murray Eden, Leonid Yaroslavsky. This button opens a dialog that displays additional images for this product with the option to zoom in or out. Tell us if something is incorrect. Fundamentals of Digital Optics : Digital Signal Processing in Optics and Holography.

oceedings{alHA, title {Digital Holography and Digital Image Processing} . Explore Further: Topics Discussed in This Paper. Fundamentals of digital lmage processing.

oceedings{alHA, title {Digital Holography and Digital Image Processing}, author {L. Yaroslavsky}, booktitle {Springer US}, year {2003} }. L. Yaroslavsky. Published in Springer US 2003. Digital image processing. Merzlyakov, Methods of Digital Holography. Consultant Bureau, .

Автор: Yaroslavsky Leonid, Eden Murray Название: Fundamentals of Digital . It covers image processing, holography and computer science

It covers image processing, holography and computer science

1.1 Digital Optics as a Subject Improvement of the quality of optical devices has always been the central task of experimental optics. In modern terms, improvements in sensitivity and resolution have equated higher quality with greater informational throughput. For most of today's applications, optics and electronics have, in essence, solved the problem of generating high quality pictures with great informational ca­ pacity. Effective use of the enormous amount of information contained in the images necessitates processing pictures, holograms, and interferograms. The manner in which information might be extracted from optical entities has be­ come a topic of current interest. The informational aspects of optical signals and systems might serve as a basis for attacking this question by making use of information theory and signal communication theory, and by enlisting modern tools and methods for data processing (the most important and powerful of which are those of digi­ tal computation). Exploiting modern advances in electronics has allowed new wavelength ranges and new kinds of radiation to be used in optics. Comput­ ers have extended our knowledge of the informational essence of radiation. Thus, computerized optical devices enhance not only the optical capabilities of sight, but also its analytical capabilities as well, thus opening qualitatively new horizons to all the areas in which optical devices have found application.