| The Handbook of Astronomical Image Processing | Hardcoverby Richard Berry (Author), James Burnell (Author)
| List Price: | $99.95 | |
| | Binding: | Hardcover | | Publisher: | Willmann-Bell | | Edition: | 2nd Pkgnd Edition | | Page Count: | 684 Pages | | Publication Date: | August 01, 2005 | | Sales Rank: | 821,531st |
|
CUSTOMER REVIEWS (Average Customer Rating: 4.0 based on 4 reviews)
|
Not actually worthwhile by Peter J. Mcdonough  1 Stars
May 04, 2009
This book wastes a whole lot of time. Who cares how the algorithms work?? Wouldn't it be better just give a better explanation of when to actually use them(something the book doesn't really do). Also, if you use a DSLR, the software can't handle the images, because they are too large.
Save your money.
| |
Image processing from a specific perspective by calvinnme (Fredericksburg, Va)  5 Stars
August 23, 2008
As others have mentioned, this is not a manual for the well-regarded AIP4WIN software. It is much more than that. It explains the theory behind the software in terms of the processing of astronomical images. In that respect you are going to run into much of the same material you would encounter in Gonzales and Woods' Digital Image Processing, just from a different perspective. It would probably be good if you already know the basics of image processing from a book like Gonzalez and Woods before reading this one. This book's primary aim is not explaining DIP, but explaining how it is used to perform the processing of astronomical images. The following is the table of contents of the book and each chapter's summary.
Basic imaging: How the light that falls on your CCD becomes an image. Covers image formation, cameras, telescopes, detectors, sensor geometry, image capture, field of view, and angluar coverage.
Counting Photons: "Astronomy is about counting photons...." Covers signal, noise, the signal-to-noise ratio, the Poisson and Gaussian distributions and why they matter, making better pictures by summing images, and how dark frames and flat frames effect the signal and noise in your images.
Digital Image Formats: Covers the file formats that astronomers use, including FITS, TIFF, BMP, and JPEG. Learn file format basics, how your image data is arranged inside the file on your computer's hard disk.
Imaging Tools: All about sensors, optics, cameras, and telescopes. Explains how to calculate the field of view and resolution of your system, telescope optics for imagers, auxiliary optics, mounts, drives, tracking, filters, and how to recognize and correct common equipment problems.
Imaging Techniques: Good equipment is just part of the story. Covers the techniques that experienced imagers use to obtain high-quality images. Includes polar alignment, good guiding, critical focus, correct exposure, darks and flats, light boxes, and special considerations for DSLR cameras.
Image Calibration: Examines the details of image calibration. All about bias, dark noise, flat-fielding, standard and scalable darks, cosmic rays, making master dark frames, flats, standard calibration protocols, and defect mapping and correction.
Image Analysis: Locked within the numerical values that make up a calibrated CCD image is a staggering amount of information. Covers pixel coordinates, pixel value, image statistics, the image histogram, feature analysis, the centroid, distances, and image profiles.
Measuring CCD Performance: How to measure the performance of your CCD camera. Discusses goals in measuring CCD performance, how to shoot test images, and the determination of bias level, dark current, gain, linearity, and readout noise.
Astrometry: Asteroid hunters measure the postions of new-found objects using astrometry. Covers the theory behind finding right ascension and declination from a CCD image, practical astrometry, and the uses of astrometry.
Photometry: Amateur observers now work side by side with professional astronomers to measure the variations of variable stars, supernovae, asteroids, and comets using the CCD to capture precise measures of brightness.
Spectroscopy: An emerging area for amateus astronomers brought to you by the CCD camera. Covers spectra and spectrographs, gratings, prisms, slit- and slitless systems, and the properties and meaning of stellar spectra.
Geometric Transforms: Covers translation, rotation, scaling, flipping, cropping, floating, and resampling. Demystifies the basic geometric operations used in astronomical image processing.
Point Operations: Learn how software converts the pixel values your CCD camera captures into the sparkling images you see in popular magazines and amateur websites. Remapping, transfer functions, linear, log, and exponential scalings explained. Covers endpoint specification and histogram specification.
Linear Operators: All about one of the most useful tools in the amateur astronomer's digital toolbox. Describes how digital convolution performs crispening, sharpening, smoothing. Learn about low-pass and high-pass kernels, Sobel, Kirsch, and Prewitt operators, and that most useful of linear tools: the unsharp mask.
Non-Linear Operators: Non-linear operators perform useful services like cleaning up noisy images. Cover rank-order processes, the median filter, local adaptive sharpening, noise filters, and morphological operators.
Image Operations: Multi-image operations are the basic tool for making superior astro-images. Covers image math, median-combine stacking, image registration, blinking, and track-and-stack image summing.
Images in Frequency Space: Unlocks the mysteries of the Fourier Transform and image processing in the spatial frequency domain. These powerful techniques used by profession astronomers are now accessible to amateurs
Wavelets: Explores the hottest new image processing and restoration techniques. Covers the wavelet transform, the inverse wavelet transform, spatial filtering, the wavelet noise filter, and iterative filtering techniques.
Deconvolution: Deconvolution attempts to restore images degraded by a turbulent atmosphere, poor telescope optics, and tracking errors. Discusses algorithms used to sharpen Hubble Space Telescope images, how they work, and how amateurs can use them.
Building Color Images: You've seen fantastic astro-images on the web and in popular magazines and books. Learn how astronomers capture and build color images from multiple exposures through different color filters. Covers the colors of astronomical objects, luminace, chrominance, color space, white balance, G2V stars, RGB and LRGB color image capture.
Processing Color Images: The digital SLR camera has done much to bring color imaging to the average amateur astronomer. Explains the Bayer array, color image bit depth, noise, dark current, vignetting, calibration, image stacking, and luminace enhancement techniques
| |
The bible for taking astrophotography shots by G. Karl (WA United States) 5 Stars
August 09, 2008
The book DOES NOT tell you how to operate the software that comes with it, it's more of a bible for ANY type astrophotography which happens to include the best darn software for image processing you could find. Just don't confuse the two. Even if you have image processing software now you NEED this book!
| |
Amazing value by Lewis M. Cook (CONCORD, CA USA) 5 Stars
September 28, 2000
I participated in a beta test of the photometry software program and proof-read a draft of this excellent book. The book alone is worth the price, but the amazing value is the powerful software package included, AIP4WIN. It does so many image processing tasks- photometry, astrometry, spectroscopy, color pictures, image sharpening - with several deconvolution routines. This is much more than a toy (but you certainly can have fun with it) as it supports routine image processing of hundreds of images per night. The software alone is worth several times the price of the book. Anyone interested in putting a CCD camera to serious work - or serious fun - will certainly get their money's worth with this package! Berry and Burnell have a really excellent effort here.
| |
SIMILAR PRODUCTS |
| A Guide to Astrophotography with Digital SLR Cameras
by Jerry Lodriguss (Author)
This book on CD-ROM is a practical guide to astrophotography with digital single lens reflex (DSLR) cameras. It explains how digital cameras work and everything you need to know about how to take astrophotos with them. It also tells you how to process the images after you have shot them, with step-by-step directions that will produce beautiful results. With this book you will discover how easy it is to shoot the Sun, Moon, stars, nebulae, galaxies, and other celestial objects. Use your DSLR...
| 
| Digital SLR Astrophotography (Practical Amateur Astronomy)
by Michael A. Covington (Author)
In the last few years, digital SLR cameras have taken the astrophotography world by storm. It is now easier to photograph the stars than ever before! They are compact and portable, flexible to adapt with different lenses and for telescope use, and above all DSLR cameras are easy and enjoyable to use. In this concise guide, experienced astrophotography expert Michael Covington outlines the simple, enduring basics that will enable you to get started, and help you get the most from your equipment....
| 
| Digital Astrophotography: A Guide to Capturing the Cosmos
by Stefan Seip (Author)
At first glance, the challenge of astrophotography may appear daunting. But not only are spectacular results possible, they are easy to learn with the step-by-step instructions provided in Stephan Seip's "Digital Astrophotography: A Guide to Capturing the Cosmos," Today, amateurs can produce images that only twenty years ago a large professional observatory would have been proud of; and this book shows you how. Learn how to: Set up your camera for optimum results Focus your camera for...
| 
| Capturing the Stars: Astrophotography by the Masters
by Robert Gendler (Author), Neil deGrasse Tyson (Foreword)
To gaze at the stars is one thing; to capture that gaze in photographs is something else, a tantalizing scientific art that many attempt and few master. That rare mastery is on full display in this beautiful volume of space photography from thirty of the most accomplished astrophotographers in the world, both professional and amateur. Galaxies, star clusters, nebulae, and other deep-sky treasures fill the pages. Along with the marvels of the night sky--the Andromeda and Whirlpool...
| 
| Observing Variable Stars, Novae, and Supernovae
by Gerald North (Author), Nick James (Author)
Gerald North's complete practical guide and resource package instructs amateur astronomers in observing and monitoring variable stars and other objects of variable brightness. Descriptions of the objects are accompanied by explanations of the background astrophysics, providing readers with real insight into what they are observing at the telescope. The main instrumental requirements for observing and estimating the brightness of objects by visual means and by CCD photometry are detailed, and...
|
|
|
