Modeling the Imaging Chain of Digital Cameras _Rob

文件名称: Modeling the Imaging Chain of Digital Cameras _Robert D. Fiete

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详细说明：数字成像经典书，自购收藏。 Teaches the key elements of the end-to-end imaging chain for digital camera systems and describes how elements of the imaging chain are mathematically modeled using the basics of linear systems mathematics and Fourier transforms. The emphasis is on general digital cameras designed to image incoherent light in the visible imaging spectrumTutorial Texts series Cells /luminated: In Vivo Optical Imaging, Lubov Brovko, Vol. TT91 Polarization of light with Applications in Optical Fibers, Arun Kumar, Ajoy Ghatak, Vol. TT90 Digital Fourier Optics: A MATLAB Tutorial, David G. Voeltz, Vol. TT89 Optical Design of Microscopes, George Seward, Vol. TT88 Analysis and evaluation of sampled imaging Systems, Richard H. vollmerhausen, Donald A Reago, Ronald driggers, vol. TT87 Nanotechnology: A Crash Course, Raul I. Martin-Palma and akhlesh I akhtakia, Vol. TT86 Direct Detection LADAR Systems, Richard Richmond, Stephen Cain, Vol. TT85 OpLicul Design: Applying the Fundamentals. Max J riedl, vol TT84 Infrared Optics and Zoom Lenses, Second Edition, Allen Mann, vol. TT83 Optical Engineering Fundamentals, Second Edition, Bruce H. Walker, Vol. TT82 Fundamentals of Polarimetric Remote Sensing, John Schott, Vol. TT81 The Design of Plastic Optical Systems, Michael P. Schaub, Vol. TT80 Fundamentals of photonics, Chandra Roychoudhuri, Vol. TT79 Radiation Thermometry: Fundamentals and Applications in the petrochemical Industry, Peter Saunders Vol. TT78 Matrix Methods for Optical layout, Gerhard Kloos, Vol. TT77 Fundamentals of Infrared Detector Materials, Michael A. Kinch, Vol. TT76 Practical Applications of Infrared Thermal Sensing and Imaging Equipment, Third Edition, Herbert Kaplan, Vol. TT75 Bioluminescence for Food and Environmental Microbiological Safety, Lubov Brovko, Vol. TT74 Introduction to Image Stabilization, Scott W. Teare, Sergio R. Restaino, Vol. TT73 Logic-based Nonlinear Image Processing, Stephen Marshall, Vol. TT72 The Physics and Engineering of Solid State Lasers, Yehoshua Kalisky, Vol. TT71 Thermal Infrared Characterization of Ground Targets and Backgrounds, Second Edition, Pieter A. Jacobs Vol. TT70 Introduction to Confocal Fluorescence Microscopy, Michiel Muller, Vol. TT69 Artificial Neural Networks: An Introduction, Kevin L Priddy and Paul e. Keller, Vol. TT68 Basics of Code Division Multiple Access/CDMA,, Raghuveer Rao and Sohail Dianat, Vol TT67 Optical Imaging in Projection Microlithography, Alfred Kwok-Kit Wong, Vol. TT66 Metrics for High-Quality specular Surfaces, Lionel R. Baker, Vol. TT65 Field Mathematics for Electromagnetics, Photonics, and Materials Science, Bernard Maxum, Vol. TT64 High-Fidelity Medical Imaging Displays, Aldo Badano, Michacl J. Flynn, and Jcrzy Kanicki, Vol. TT6 Diffractive Optics-Design, Fabrication, and Test, Donald C O'Shea, Thomas J Suleski, Alan D Kathman and Dennis w. prather. VoL. TT62 Fourier-Transform Spectroscopy Instrumentation Engineering, Vidi Saptari, Vol. TT61 The Power -and Energy -Handling Capability of Optical Materials, Components, and Systems, Roger M Wood,Ⅴol.TT60 Hands-on Morphological Image Processing, Edward R. Dougherty, Roberto A. Lotufo, Vol. TT59 Integrated Optomechanical Analysis, Keith B. Doyle, Victor L Genberg, Gregory J. Michels, Vol. TT58 Thin-Film Design: Modulated Thickness and Other Stopband Design Methods, Bruce Perilloux, Vol. TT57 Optische Grundlagen fir Infrarotsysteme, Max J Riedl, Vol. TT56 An Engineering Introduction to Biotechnology, J. Patrick Fitch, Vol. TT55 Image Performance in CRT Displays, Kenneth Compton, Vol. TT54 Introduction to laser Diode-Pumped Solid state Lasers, Richard Scheps, Vol. TT53 Modulation Transfer Function in Optical and Electro-Optical SystemS, Glenn D. Boreman, Vol. TT52 Uncooled Thermal Imaging Arrays, Systems, and Applications, Paul w. Kruse, Vol. TT51 (foRacompletelistofTutorialTexts,seehttp://spie.org/x651.xml.) Modeling the Imaging Chain of Digital Cameras Robert d. fiete Tutorial Texts in Optical Engineering Volume tt92 SPIE PRESS Bellingham, Washington USA Library of Congress Cataloging-in-Publication Data Fiete. robert d Modeling the imaging chain of digital cameras/ Robert D. Fiete cm. (Tutorial texts in optical engineering; V. TT92) Includes bibliographical references and index ISBN978-0-8194-8339-3 1. Photographic optics--Mathematics. 2. Digital cameras--Mathematical models 3. Photography--Digital techniques. I. Title TR220F542010 775-dc22 2010038932 Published by SPIE PO.Boⅹ10 Bellingham, Washington 98227-0010 USA Phone:+1360.676.3290 Fax:+1360.647.1445 Emai: books(aspie.。org Web:http://spie.org Copyright 2010 Society of Photo-Optical Instrumentation Engineers(SPIE) All rights reserved. No part of this publication may be reproduced or distributed in any form or by any means without written permission of the publisher The content of this book reflects the work and thought of the author(s). Every effort has been made to publish reliable and accurate information herein, but the publisher is not responsible for the validity of the information or for any outcomes resulting from reliance Printed in the United States of America ◎sPE To Kathy, Katie, Allie, and Greg Introduction to the series Since its inception in 1989, the Tutorial Texts (rT)series has grown to cover many diverse fields of science and engineering The initial idea for the series was to make material presented in Spie short courses available to those who could not attend and to provide a reference text for those who could. Thus, many of the texts in this series are generated by augmenting course notes with descriptive text that further illuminates the subject. In this way, the tt becomes an excellent stand-alone reference that finds a much wider audience than only short course attendees Tutorial Texts have grown in popularity and in the scope of material covered since 1989. They no longer necessarily stem from short courses; rather, they are often generated independently by experts in the field. They are popular because they provide a ready reference to those wishing to learn about emerging technologies or the latest information within their field. The topics within the series have grown from the initial areas of geometrical optics, optical detectors and image processing to include the emerging fields of nanotechnology, biomedical optics, fiber optics, and laser technologies. Authors contributing to the TT series are instructed to provide introductory material so that those new to the field may use the book as a starting point to get a basic grasp of the material It is hoped that some readers may develop sufficient interest to take a short course by the author or pursue further research in more advanced books to delve deeper into the subject The books in this series are distinguished from other technical monographs and textbooks in the way in which the material is presented. In keeping with the tutorial nature of the series, there is an emphasis on the use of graphical and illustrative material to better elucidate basic and advanced concepts. There is also heavy use of tabular reference data and numerous examples to further explain the concepts presented. The publishing time for the books is kept to a minimum so that the books will be as timely and up-to-date as possible. Furthermore, these introductory books are competitively priced compared to more traditional books on the same subject When a proposal for a text is received, each proposal is evaluated to determine the relevance of the proposed topic. This initial reviewing process has been very helpful to authors in identifying, early in the writing process, the need for additional material or other changes in approach that would serve to strengthen the text. Once a manuscript is completed it is peer reviewed to ensure that chapters communicate accurately the essential ingredients of the science and technologies under discussion It is my goal to maintain the style and quality of books in the series and to further expand the topic areas to include new emerging fields as they become of interest to our reading audience James A. Harrington Rutgers University Contents Preface ■■■『■■■■■■■■『■■■■■書■口冒■晶■百量冒百看■ Acknowledgments ■■■■ List of Acronyms.…,..,,…,,,…,,,,…,,…,…,…,…,…XV Chapter 1 The Importance of Modeling the Imaging chain Chapter 2 The Imaging Chain and Applications....n. 2. I The Imaging Chain… 2.2 Generating Simulated Image Products Using the ging Chai 2.3 Applications of the Imaging Chain Model Through a Camera Development mode 2.3.1 Imaging system concept…… 8 2.3.2 Image product requirements 2.3.3 System requirements……… 10 2.3.4 System build 10 2.3.5 System initialization 10 2.3.6 System operations and improvement 2.3.7 Verification of imaging chain models 2.4 applying the lmaging chain to Understand lmage quality 2.4.1 Image quality assurance ..........12 2.4.2 Image forger 12 Refe Chapter 3 Mathematics 3.1 Fundamental Mathematics for Modeling the Imaging Chain..15 3.2 Useful Functions 3.3 Linear Shift-Invariant(LSD Systems 21 3.4 Convolution 3.5 Fourier transforms..............w..w....25 ting fourier transforms 3.5.2 Properties of Fourier transforms 29 3.5.3 Fourier transforms of images 32 Refe 37

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