Applied Maple for Engineers and Scientists
Published on 1. July 1996
Book
Hardback
406 pages
978-0-89006-853-3 (ISBN)
Description
MAPLE is a software that performs numerical and symbolic analysis to solve complex mathematical problems. The book shows how to tap the full power of MAPLE in solving real-world quantitative problems in circuit theory, control theory, curve-fitting, mechanics and digital signal processing. Accompanying the software includes exercises, a demonstration of MAPLE features, and MAPLE subroutines to use in solving engineering problems.
More details
Edition
Unabridged edition
Language
English
Place of publication
Norwood
United States
Target group
Professional and scholarly
Edition type
Unabridged edition
Dimensions
Height: 152 mm
Width: 229 mm
ISBN-13
978-0-89006-853-3 (9780890068533)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Persons
Christopher S. Tocci is currently a principle applications engineer at Allen-Bradley Automation Company, Inc., Chelmsford, MA. He received his Ph.D. in engineering science from Clarkson University. Dr. Tocci has had several patents in electro-optical device technology and over 35 publications in both trade and professional journals. Steven Adams is technical marketing director for TCI Software Research, Inc., Las Cruces, New Mexico. He earned his Ph.D. in electrical and electronic engineering from King's College, University of London, Department of Electrical and Electronic Engineering, London, UK.
Content
Introduction: What is CAS? What is Maple? Quick Tutorial. Help Files. References. Linear Active Filters: Butterworth Low Pass Filter Design. Switching Band Pass Filter Design. References. Curve Fitting: Gaussian Peak Estimation Using Regressive Curve Fitting. Problem Data Sets for Simple Regression. Nonlinear Regression Method. General Polynomial Regression Method. Problems with High Order Curve Fitting. References. Working with Ordinary Differential Equations: Maple's ODE Tools. Modeling Dynamical Systems. References. Continuous Control Applications: Frequency Domain Analysis. Time Domain Analysis. References. Discrete Control Applications: The Pulse Transform Function. State Space Equations and Their Canonical Forms. References. Discrete Data Processing: Image Conversion. Linear Filters. References. Switching Topologies: Pulse Width Modulator signal Acquisition and/or Driver. Switching Power Supply. References. Glossary.