Description
Communications System Laboratory
Author: Kumar B. Preetham
Language: EnglishSubject for Communications System Laboratory:
Keywords
SNR Improvement; FHSS System; Worldwide Frequency Terminology; Input Signal; Worldwide Frequency Bands; Simulink Block; RFICs; DSSS System; RF Integrated Circuits; QPSK Signal; Radio Frequency Integrated Circuits; Wireless LAN; Integrated Circuits for Communication Systems; Simulink Library; Digital Storage Oscilloscopes; MIMO System; Dynamic Signal Analyzers; PN Sequence; Radio Frequency Spectrum Analyzers; PN Code; RF Spectrum Analyzers; BPSK Signal; Synthesized Waveform Generators; Spread Spectrum Systems; Short Range Communication Networks; Output SNR; Long Range Communication Networks; Input SNR; Capacity of Higher Generations; OFDM Receiver; Capacity of Communication Systems; Dynamic Signal Analyzer; Wideband Digital Modulation; FM Signal; Third Generation Systems; DPSK Signal; Digital Modulation; BER Performance; Second Generation Systems; UWB System; Analog Modulation; Uniform Quantizer; First Generation Systems; PL; Communication Signals; Discrete Time Signals; Time Frequency Analysis; Port Based Network Access Control; Electronic Communication Systems; Communication Systems
Publication date: 03-2021
· 15.6x23.4 cm · Paperback
Publication date: 10-2015
· 15.6x23.4 cm · Hardback
Description
/li>Contents
/li>Biography
/li>
Communications System Laboratory offers an integrated approach to communications system teaching. Inspired by his students? expressed desire to read background theory explained in simple terms and to obtain practical computer training, Dr. Kumar has crafted this textbook, ideal for a first course in communication systems.
The book merges theory with practical software and hardware applications. Each chapter includes the following components: a brief theory that describes the underlying mathematics and principles, a problem-solving section with a set of typical problems, a computer laboratory with programming examples and exercises in MATLAB® and Simulink®, and finally, in applicable chapters, a hardware laboratory with exercises using test and measurement equipment.
Covering fundamental topics such as frequency and bandwidth, as well as different generations of modulation including current 4G long-term evolution (LTE) techniques and future technologies like ultra wideband (UWB) systems, Communications System Laboratory provides engineering students with a deeper understanding of how electronic communications link the world.
Types of Electronic Communication Systems. Time/Frequency Analysis of Communication Signals and Systems. First-Generation Systems: Analog Modulation. Second-Generation Systems: Digital Modulation. Third-Generation Systems: Wideband Digital Modulation. Capacity of Communication Systems and Higher Generations. Long-Range and Short-Range Communication Networks. Appendix A: Synthesized Waveform Generators. Appendix B: RF Spectrum Analyzers. Appendix C: Dynamic Signal Analyzers. Appendix D: Digital Storage Oscilloscopes. Appendix E: Integrated Circuits for Communication Systems. Appendix F: Worldwide Frequency Bands and Terminology.
B. Preetham Kumar holds a BE and ME from the College of Engineering, Chennai, India, and a Ph.D from the Indian Institute of Technology, Chennai. He is professor and graduate coordinator in the Department of Electrical and Electronic Engineering at California State University (CSUS), Sacramento, USA. Previously, he was part-time faculty at CSUS, and researcher/lecturer in the RF and Microwave Laboratory at University of California, Davis, USA. Widely published and highly decorated, Dr. Kumar has worked on projects funded by Lockheed Martin, Agilent Technologies, National Semiconductor, Intel, and Antenna Wireless, Inc. Currently, he is heading an effort to expand the use of microwave heating in the treatment of cancer.