Communication System Design Using DSP Algorithms: With Laboratory Experiments for the TMS320C30 / Edition 1

Communication System Design Using DSP Algorithms: With Laboratory Experiments for the TMS320C30 / Edition 1

by Steven A. Tretter
     
 

Designed for senior electrical engineering students, this textbook explores the theoretical concepts of digital signal processing and communication systems by presenting laboratory experiments using real-time DSP hardware. Each experiment begins with a presentation of the required theory and concludes with instructions for performing them. Engineering students gain

See more details below

Overview

Designed for senior electrical engineering students, this textbook explores the theoretical concepts of digital signal processing and communication systems by presenting laboratory experiments using real-time DSP hardware. Each experiment begins with a presentation of the required theory and concludes with instructions for performing them. Engineering students gain experience in working with equipment commonly used in industry. This text features DSP-based algorithms for transmitter and receiver functions.

Product Details

ISBN-13:
9780306450327
Publisher:
Springer US
Publication date:
08/31/1995
Series:
Applications of Communications Theory Series
Edition description:
1995
Pages:
193
Product dimensions:
11.00(w) x 8.25(h) x 0.45(d)

Table of Contents

Experiment 1: Brief Overview of the Hardware and Software Tools. Experiment 2: Learning to Use the Hardware and Software Tools by Generating a Sine Wave. Experiment 3: Digital Filters. Experiment 4: The FFT and Power Spectrum Estimation. Experiment 5: Amplitude Modulation. Experiment 6: Doublesideband Suppressedcarrier Amplitude Modulation and Coherent Detection. Experiment 7: Single-sideband Modulation and Frequency Translation. Experiment 8: Frequency Modulation. Experiment 9: Pseudorandom Binary Sequences and Data Scramblers. Experiment 10: Introduction to the RS232C Prool and a Biterror Rate Tester. Experiment 11: Digital Data Transmission by Baseband Pulse Amplitude Modulation (PAM). Experiment 12: Fundamentals of Quadrature Amplitude Modulation. Experiment 13: QAM Receiver I: General Description of Complete Receiver Block Diagram and Details of the Symbol Clock Recovery and Other Frontend Subsystems. Experiment 14: QAM Receiver II: The Passband Adaptive Equalizer and Carrier Recovery System. Experiment 15: Echo Cancellation for Fullduplex Modems. Experiment 16: Suggestions for Additional Experiments. Appendixes. Index.

Read More

Customer Reviews

Average Review:

Write a Review

and post it to your social network

     

Most Helpful Customer Reviews

See all customer reviews >