NUMBER BY COLORS Brand Fortner Theodore E. Meyer B C~L A uide t Using Color to Under t nd Technical Data 8rand Fortner Theodore E. Meyer Fortner Research llC Fortner Research llC Sterling, VA 20164 Sterling, VA 20164 USA USA Publisher:Allan M.Wylde Publishing Associate: Keisha Sherbecoe Product Manager: Walter Borden Production Manager: Robert Wexler Manufacturing Supervisor:Jeffrey Taub Cover Designer: lrene Irmfeld Library of Congress Cataloging-in-Publication Data Fortner, Brand, 1955- Number by colors : a guide to using color to understand technical data / Brand Fortner, Theodore E. Meyer. p. cm. Includes bibliographical references and index. ISBN 978-1-4612-7327-1 ISBN 978-1-4612-1892-0 (eBook) DOI 10.1007/978-1-4612-1892-0 1. Color. 2. Color separation-Data processing. 1. Meyer, Theodore E. II. Tirle. QC495.F6 1996 535.6-dc20 96-22982 Printed on acid-free paper. © 1997 Springer Seienee+Business Media New York Originally published by Springer-Verlag New York IBe. in 1997 Softcover reprint of the hardeover Ist edition 1997 AII rights reserved. This work may not be translated or copied in whole or in part without the written pennission of the publisher Springer Science+Business Media, LLC, except for brief exerpts in connection with reviews or scholarly analysis. Use in connection with any form of information storage and retrieval, electronic adaptation, computer software, or by similar or dissimilar methodology now known or hereafter developed is forbidden. The use of general descriptive names, trade names, trademarks, etc., in this publication, even if the former are not especially identified, is not to be taken as a sign that such names, as understood by the Trade Marks and Merchandise Marks Act, may accordingly be used freely by anyone. 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Presented in hypertext format with rich graphics, it's your best way to discover what's new at TELOS. TELOS also maintains these additional Internet resources: gopher: Ilgopher.telospub.com fip: I Ijtp.telospub.com For up-to-date information regarding TELOS online services, send the one-line e mail message: send il1fo to: [email protected]. -Number by Colors Prefac~e Introduction One of our favorite pastimes when we were small were those marvelous "Color by Number" kits that you used to find in toy stores. These kits con tained black and white drawings with a bunch of numbers on them. They also included a fine collection of colored paints or pencils, and again each one had a number. What you did was find the number that was printed in a particular region on the drawing, select the paint with that number on it, and fill in the region with that color. After you had filled in enough of these regions, something interesting happened. What emerged on that drawing was not numbers, not color paints, but something more: a painting that you yourself created, but also something that was artistically vastly superior to anything that you could have made unaided. It was almost magical, how you could turn numbers into colors. In this book we start out by doing exactly the reverse: we will be turning colors into I1Itmbers.1 In other words, we quantity colors as a way to understand what on earth color is and how we can use it. In later chapters, we actually 1. Hence the title of this book: Number by Colors, the reverse of Color by Numbers. Number by Colors vii return to the original idea, by showing how numbers that represent scientific data can be turned into colors, just like the old kits. This book is designed for the working scientists and engineers who use col or frequently. Perhaps they use color to distinguish different lines in a line graph. Perhaps they use colors to illustrate different isosurface levels in a 3D visualization of fluid flow. These researchers may feel that they are not making the best use of color. In that case, this book is for them. On the other hand, they may think that there is nothing subtle or interesting or deceptive about using color. They are probably wrong, and this book is also for them. To truly make the most use out of the visualization of technical data, you must understand color, since many of the pitfalls of visualization revolve around color perception. We feel that this book contains all the basic facts that every technical person should know about using color. Color vision is still a very hot research area. Many of the most basic facts of color perception were unknown just a few decades ago. Even today we do not know for sure why an object appears to be the same color, regardless of the light source. One final reason for this book is that we personally have found the topic fascinating in its own right. We hope you do too. A Quick Tour of This Book Color starts with photons of light. It ends with comprehension of an image, or insight into data that have generated that image. There are many steps be tween that beginning and that end. In this book, we go over each of those intermediate steps one by one. We cover the first steps of going from photons to impulses in the brain to the perception of color in Part I, "Color Physics, Physiology, Psychology." In Part II, "Color Technology," we go from the perception of color to the de scription of color, and then to the reproduction of color. Finally, in Part III, "Color on Computers," we show how color reproductions can be stored in computers, and how color can be used to represent data. A description of the chapters in each of these parts is given in the following. viii Number by Colors Part I, "Color Physics, Physiology, Psychology" Part I starts with the physics of photons, covers the physiology of the translation of the photons into red, green, and blue signals, and then talks about the psy chology of the translation of those RGB signals to the perception of hue, sat uration, and intensity. The specific chapters are as follows. • Chapter 1, "Spectral Analysis," gives a brief overview of concepts needed in the rest of book about wavelengths, frequencies, spectra, light, and so on. This material is included to make the book as self-contained as possi ble. It may be skipped without loss of continuity. • Chapter 2, "Eye, Ear, and Brain," talks about our senses of hearing and sight. We start with a discussion of the ear, because it gives great insight into color vision. We also discuss the physiology of the eye, focusing on the details of color vision. • Chapter 3, "Light Spectra to RGB," shows how light spectra translate into the generation of red, green, and blue signals going to the brain. • Chapter 4, "Hue, Saturation, Intensity," shows how the reception of red, green, and blue signals in the eye translates to our perception of hue, satura tion, and intensity in the brain. Part II, "Color Technology" In Part I we went over the fundamentals of color and biology. In Part II we describe how we have chosen to describe and reproduce these colors. Today peo ple define colors with a variety of mathematical models, which are described in the first two chapters of this part. There is also a variety of technologies for reproducing these colors, which are described in the last two chapters. The specific chapters are as follows. • Chapter 5, "Defining Colors-The CIE Color Diagram," goes into great detail about the most important graphic in all of colordom, the CIE Color Diagram. We show how the CIE diagram was constructed, why it is so important, and how to use it. • Chapter 6, "Defining Colors-Color Models," describes each of the most commonly used mathematical models for colors, such as RGB, HSI, CMYK, and so on. Many of these color models were created for specific color reproduction technologies, which are described in the next two chapters. Number by Colors ix • Chapter 7, "Reproduci11g Colors-Fundamentals," discusses the key concepts needed to evaluate color reproduction technologies, such as pixels, reso lutions, gamma correction, halftones, and dithering. • Chapter 8, "Reprodllcing Colors-Teclmologies," enumerates in some detail the most prevalent color reproduction technologies of today, such as pho tography, printing, and video. Part III, "Color on Computers" For most researchers, interactions with color involve a computer. In the final two chapters of this part we talk about how these colors can be stored on computers, how they can be displayed, and how color can be used to visualize technical data. The first chapter is needed to introduce fundamental informa tion on the basics of storing and organizing any kind of technical data on computers. This part contains the following chapters. • Chapter 9, "Numbers in Computers," details the ways that data can be stored digitally (as bytes, integers, fixed-point numbers, floating-point numbers, ASCII text, etc.) and discusses the advantages and disadvantages of each method. We then discuss the concepts of data dimensionality, data value, and data location, and show how technical data can be categorized as column data, 2D matrix data, 3D matrix data, and polygonal data. • Chapter 10, "Color in Computers-Fundamentals," starts with the basics of storing colors on computers, and then launches into a detailed discussion of true color and index color images and their associated colortables. To fully understand digitized computer images, it is vital that one have a fun damental understanding of colortables and colortable manipulations. • Chapter 11, "Color by Numbers-Using Color to Visualize Data," shows how you can use the technology developed for index color images and apply it to display 2D or 3D matrix data as pseudocolor or false color images. We finish by showing how many of the facts that we have identi fied throughout the book can be used to avoid visualization pitfalls. x Number by Colors Appendix The one and only Appendix goes into some detail about how numbers, espe cially color images, can be organized into graphics and scientific data formats. Although this material is outside the main thrust of this book, it is pertinent enough to include here. • Appendix A, "Science and Graphics Data Formats," discusses the concepts involved in standard data formats for science and graphics data. We finish the Appendix with very brief summaries of the most popular science and graphics data formats. Navigational Tools We have worked very hard so you will find it easy to locate information in this book. Towards that end, we have included the following navigational and organizational features: • The book contains both a brief and an extended table of contents in the preface, and an extended index at the end. Immediately before the index is a glossary of key concepts and phrases. • Each part in the book begins with a synopsis of the topics in that part. • Every chapter in the book begins with an introduction and a series of questions, and ends with a summary and responses to those questions. Although Number by Colors could be used as a reference, we have designed it to be readable straight through. If you wish to do this, we offer the following suggestions. Chapter 1 is background material, and can be safely skipped if you are fa miliar with the basic concepts (see, e.g., if you can answer the questions posed at the beginning of the chapter). The rest of Part I (Chapters 2 through 4) is part of the core of the material of the book, and should be read straight through. The first three chapters of Part II (Chapters 5 through 7) are also core ma terial and should be read carefully. The material in Chapter 8 on color tech nologies can be sampled as need be. In Part III, Chapter 9 on Numbers in Computers is pure reference, and can be safely skipped by the computer liter ate. The last two chapters, 10 and 11, contain fundamental material dealing with using color on computers, and should be read straight though. Number by Colors XI