Discrete Systems Laboratory Using MATLAB

Name: Discrete Systems Laboratory Using MATLAB
Availability: OutOfStock
ISBN: 9780534374631

ISBN-10: 0534374638

ISBN-13: 9780534374631

Edition: 2000

Authors: Martin Schetzen, Vinay K. Ingle

List price: $41.95

30 day, 100% satisfaction guarantee!

Out of stock

We're sorry. This item is currently unavailable.

what's this?

Rush Rewards U
Members Receive:

You have reached 400 XP and carrot coins. That is the daily max!

This brief paperbound supplement provides 16 hands-on laboratory experiments that students can perform using MATLAB in lab sections that accompany lecture courses in Linear Systems or DSP. The 16 experiments are grouped in four main topic areas: sampling and digital-to-analog (D/A) conversion; the discrete-time Fourier transform; gain and phase-shift studies of digital filters; and analog-to-digital (A/D) quantization. (See TOC below for a listing of specific lab experiments.) The goal of these experiments is to enable students to understand the full physical significance of key concepts through a deeper understanding of the underlying mathematical formulas - not to teach MATLAB. In each…

Book details

List price: $41.95
Copyright year: 2000
Publisher: Course Technology
Publication date: 12/2/1999
Binding: Paperback
Pages: 144
Size: 7.32" wide x 9.21" long x 0.28" tall
Weight: 0.440

Vinay K. Ingle is an Associate Professor of Electrical and Computer Engineering at Northeastern University. He received his Ph.D. in electrical and computer engineering from Rensselaer Polytechnic Institute in 1981. He has broad research experience and has taught courses on topics including signal and image processing, stochastic processes, and estimation theory. Professor Ingle is coauthor of the books: DSP Laboratory Using the ADSP-2181 Microprocessor (Prentice-Hall, 1991), Discrete Systems Laboratory (Brooks-Cole, 2000), and Statistical and Adaptive Signal proc-essing (Artech House, 2005).



Preface



Sampling And Reconstruction


Introduction



ideal Sampling And Reconstruction Background


Experimental Procedure


An Illustration



non-Ideal Reconstruction Background


Experimental Procedure


An Illustration



practical Interpolators Background



kth-Order Polynomial Interpolation



kth-Order Polynomial Differentiable Interpolation



Spline Interpolation


An Illustration



sampling And Reconstruction Of Periodic Signals Background


Experimental Procedure


An Illustration



sampling and Pendulum Motion Background


The Rotating Pendulum


The Swinging Pendulum


Screen Illustration



the Discrete-Time Fourier Transform Introduction



resolution of two sinusoids Background


Experimental Procedure


An Illustration



separation Of Two Sinusoids Background


Experimental Procedure


An Illustration



analysis Of Periodic Waveforms Background


Experimental Procedure


An Illustration



Gain And Phase-Shift Introduction



the Moving Average Filter Background


Experimental Procedure


An Illustration



basic Filter Types Background


Experimental Procedure


An Illustration



filter Transient Response Background


Experimental Procedure


An Illustration



butterworth filter design Background


Experimental Procedure


An Illustration



Quantization Introduction



A/D Quantization Error Background


Experimental Procedure


Screen Illustration



multiplication Quantization Error Background


Experimental Procedure


Screen Illustration



multiplication quantization error in direct form background



multiplication quantization error study in df realizations background