Edited and expanded to keep pace with the digital revolution, the new edition of this highly popular and critically acclaimed work provides a comprehensive exploration of imaging science. Brilliantly written and extensively illustrated, The Science of Imaging: An Introduction, Second Edition covers the fundamental laws of physics as well as the cutting-edge techniques defining current and future directions in the field.
Improvements to this Edition Include:
- A new chapter on astronomical imaging
- A larger format with a wealth of illustrations
- Major revisions in the areas of digital imaging and modern technology
- Updated references with links to a wealth of online resources—including teaching material and expanded information
This accessible introduction to the subject takes students on a grand tour of imaging. Starting with the fundamentals of light and basic cameras, the author journeys through television and holography to advanced scientific and medical imaging. He highlights essential formulas, while keeping the complex mathematics to a minimum. Copiously illustrated with a wealth of examples and a 16-page color insert, the text covers optics, imaging systems, materials, and image interpretation and creation in a manner that makes it easy to understand.
Praise for the critically acclaimed First Edition:
It's the best book I have read on the subject at this level.
—Ron Graham, RPS Journal
... every student should read it, every photographer should own it, and every lecturer and journalist should know its contents inside out.
—Jon Tarrant, British Journal of Photography
Table of Contents
The Nature of Light. Photometry, Lighting, and Light Filters. Visual Perception. Lens Principles. Types of Lenses. Resolution in Optical Systems. Images in Color. Still Cameras. Motion and High-Speed Photography. The Silver Halide Process. Digital Recording of Images. Halftone, Electrostatic, and Digital Printing. Television. Video Recording and Replay Systems. Three-Dimensional Imaging. Holography. Astronomical Imaging. Macrography, Micrography, and Microimaging. Imaging the Invisible. Appendix 1: Logarithms: What They Are, What They Do. Appendix 2: How a Hologram Works. Appendix 3: The Fourier Model for Image Formation. Appendix 4: The Meaning of pH.
Graham Saxby served in the Royal Air Force (RAF) for 27 years, the first 19 in the trade of photographer, where he undertook almost every possible form of assignment. After being commissioned into the Education Branch, he was Officer Commanding Photographic Science Flight at the RAF School of Photography at Cosford for seven years. On leaving the RAF he joined the staff of what is now the University of Wolverhampton as Senior Lecturer in Educational Technology, later moving to the Department of Applied Sciences to teach modern optics. His research into display holographic techniques has earned him an international reputation, and his books have won several prestigious awards. Currently, he works as a freelance editor and reviewer of technical books and as a consultant in optical and photographic matters. He is a Fellow of the Institute of Physics and an Honorary Fellow of the Royal Photographic Society.