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Digital communication systems using SystemVue

Author: Dennis Silage
Publisher: Hingham, Mass. : Da Vinci/Charles River Media, ©2006.
Edition/Format:   Print book : CD for computer : EnglishView all editions and formats
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Material Type: Internet resource
Document Type: Book, Internet Resource
All Authors / Contributors: Dennis Silage
ISBN: 1584508507 9781584508502
OCLC Number: 61176991
Description: xvii, 365 pages : illustrations ; 25 cm + 1 CD-ROM (4 3/4 in.)
Details: System requirements: Pentium III 1 GHz processor; 256 MB RAM, 50 MB free hard drive storage; Windows 2000 or Windows XP.
Contents: Communication Simulation Techniques --
Capabilities and Limitations of Simulation --
Introduction to SystemVue --
Design Window --
Design Toolbar --
SystemVue Simulation Token Library --
Source Token Library --
Sink Token Library --
Operator Token Library --
Function Token Library --
Communications Token Library --
Logic Token Library --
SystemVue Simulation Displays --
Analysis Toolbar --
Temporal Displays --
Spectral Displays --
Correlation Display --
Dynamic System Probe --
Analog Communication Systems Using SystemVue --
Amplitude Modulation --
Frequency Modulation --
Baseband Modulation and Demodulation --
Rectangular Pulse Amplitude Modulation --
SystemVue Simulation of Rectangular PAM --
Rectangular PAM Power Spectral Density --
Performance of Rectangular PAM in a Simple Receiver in AWGN --
Performance of Filtered Rectangular PAM in a Simple Receiver in AWGN --
Sinc Pulse Amplitude Modulation --
SystemVue Simulation of Sinc PAM --
Sinc PAM Power Spectral Density --
Performance of Sinc PAM in a Simple Receiver in AWGN --
Raised Cosine Pulse Amplitude Modulation --
SystemVue Simulation of Raised Cosine PAM --
Raised Cosine PAM Power Spectral Density --
Performance of Raised Cosine PAM in a Simple Receiver in AWGN --
Optimum Binary Baseband Receiver: The Correlation Receiver --
The Correlation Receiver for Baseband Symmetrical Signals --
Probability of Bit Error for Baseband Symmetrical Signals --
Performance of Symmetrical PAM for the Optimum Receiver in AWGN --
The Correlation Receiver for Baseband Asymmetrical Signals --
Probability of Bit Error for Baseband Asymmetrical Signals --
Performance of Asymmetrical PAM for the Optimum Receiver in AWGN --
Multilevel (M-ary) Pulse Amplitude Modulation --
SystemVue Simulation of M-ary Rectangular PAM --
M-ary Rectangular PAM Power Spectral Density --
The Correlation Receiver for M-ary Baseband Signals --
Probability of Bit Error for M-ary Baseband Signals --
Performance of M-ary PAM for the Optimum Receiver in AWGN --
Partial Response Signaling --
Duobinary PAM Signaling --
SystemVue Simulation of Duobinary PAM --
The Simple Receiver for Precoded Duobinary Signals --
The Simple Receiver for Precoded Modified Duobinary Signals --
Duobinary PAM Power Spectral Density --
Performance of Duobinary PAM in a Simple Receiver in AWGN --
Delta Modulation --
Eye Diagrams --
Bandpass Modulation and Demodulation --
Optimum Bandpass Receiver: The Correlation Receiver --
The Correlation Receiver for Bandpass Symmetrical Signals --
Probability of Bit Error for Bandpass Symmetrical Signals --
The Correlation Receiver for Bandpass Asymmetrical Signals --
Probability of Bit Error for Bandpass Asymmetrical Signals --
Binary Amplitude Shift Keying --
SystemVue Simulation of Binary ASK --
Binary ASK Power Spectral Density --
Performance of Binary ASK for the Optimum Receiver in AWGN --
Binary Frequency Shift Keying --
SystemVue Simulation of Binary FSK --
Binary FSK Power Spectral Density --
Performance of Binary FSK for the Optimum Receiver in AWGN --
Binary Phase Shift Keying --
SystemVue Simulation of Binary PSK --
Binary PSK Power Spectral Density --
Performance of Binary PSK for the Optimum Receiver in AWGN --
Multilevel (M-ary) Amplitude Shift Keying --
SystemVue Simulation of M-ary ASK --
M-ary ASK Power Spectral Density --
The Correlation Receiver for M-ary ASK Signals --
Probability of Bit Error for M-ary ASK Signals --
Performance of M-ary ASK for the Optimum Receiver in AWGN --
Multilevel (M-ary) Frequency Shift Keying --
SystemVue Simulation of M-ary FSK --
M-ary FSK Power Spectral Density --
The Correlation Receiver for M-ary FSK Signals --
Probability of Bit Error for M-ary FSK Signals --
Performance of M-ary FSK for the Optimum Receiver in AWGN --
Multilevel (M-ary) Phase Shift Keying --
SystemVue Simulation of M-ary PSK --
M-ary PSK Power Spectral Density --
Probability of Bit Error for M-ary PSK Signals --
Performance of M-ary PSK for the Optimum Receiver in AWGN --
Quadrature Amplitude Modulation --
SystemVue Simulation of QAM --
QAM Power Spectral Density --
Probability of Bit Error for QAM Signals --
Performance of QAM for the Optimum Receiver in AWGN --
Differential Phase Shift Keying --
SystemVue Simulation of DPSK --
DPSK Power Spectral Density --
Probability of Bit Error for DPSK Signals --
Performance of DPSK for the Optimum Receiver in AWGN --
Differential Quaternary Phase Shift Keying --
SystemVue Simulation of DQPSK --
DQPSK Power Spectral Density --
Probability of Bit Error for DQPSK Signals --
Performance of DQPSK for the Optimum Receiver in AWGN --
Noncoherent Demodulation of Binary Frequency Shift Keying --
SystemVue Simulation of Noncoherent Binary FSK --
Probability of Bit Error for Noncoherent Binary FSK Signals --
Performance of Noncoherent Binary FSK in AWGN --
Noncoherent Demodulation of Binary Amplitude Shift Keying --
SystemVue Simulation of Noncoherent Binary ASK --
Probability of Bit Error for Noncoherent Binary ASK Signals --
Performance of Noncoherent Binary ASK in AWGN --
Threshold for Demodulation of Noncoherent Binary ASK --
Constellation Plots --
Synchronization and Equalization --
Acquisition and Tracking of Synchronization --
Carrier Frequency and Phase Synchronization --
Symbol Synchronization --
Equalization of Bandlimited Channels --
Channel Models --
Multiplexing --
Time Division Multiplexing --
Frequency Division Multiplexing --
Code Division Multiplexing --
Direct Sequence Spread Spectrum --
SystemVue Simulation of DSSS --
Performance of DSSS with Interference --
Signal to Noise Ratio in DSSS --
Probability of Bit Error Bit in Multiple Access Interference in DSSS --
Frequency Hopping Spread Spectrum --
SystemVue Simulation of FHSS --
Performance of FHSS in AWGN --
Jamming in FHSS --
Orthogonal Frequency Division Multiplexing --
Sampling and Quantization --
Sampling Baseband Analog Signals --
Companding --
Pulse Code Modulation --
Line Codes --
Power Spectral Density of Line Codes --
Polar NRZ Line Code --
Unipolar NRZ Line Code --
Alternate Mark Inversion NRZ Line Code --
Split-Phase NRZ Line Code --
Return-to-Zero Line Codes --
SystemVue Simulation of Line Codes --
Differential Pulse Code Modulation --
Sampling Bandpass Analog Signals --
System Requirements --
SystemVue Simulation Models.
Responsibility: Dennis Silage.
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Abstract:

Annotation

SystemVue (formerly SystemView) by Eagleware-Elanix is a communication systems simulator with advanced capabilities for design, analysis and implementation in DSP processors and in HDL. Digital Communication Systems Using SystemVue serves as an introduction to simulation for undergraduate students in a contemporary course, where it provides the opportunity to go beyond the lecture or the hardware laboratory. Graduate students in a rigorous first course will find the SystemVue simulation environment an adjunct to their understanding of the concepts of digital communication systems, facilitating their projects and thesis. Professionals, once having had a course primarily in analog communications, will be able to acquaint themselves with modern digital communications in the SystemVue simulation environment. An extensive discussion of the precepts of digital communications is coupled with simulation models and observed results. With clear and concise descriptions this is an essential guide for anyone wishing to fully utilize SystemVue.

Annotation

Digital Communication Systems Using SystemView describes the analysis and design of modern digital communication systems and the benefits of using this software. The concepts of digital communications system design, in particular the presence of noise, cannot be conveyed with simple calculations. It allows students and professionals to investigate the what-ifs of such design in a convenient simulation design environment. Professional engineers actively designing communication circuits who were not exposed to such systems or design simulation tools in their coursework are allowed to experiment with the what-ifs of digital communication systems design without conventional programming through the materials provided in this book. Senior undergraduate or first level graduate students in electrical and computer engineering in a required or elective course in digital communication systems will find this the only complete description of the SystemView simulation environment.

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    schema:description "Communication Simulation Techniques -- Capabilities and Limitations of Simulation -- Introduction to SystemVue -- Design Window -- Design Toolbar -- SystemVue Simulation Token Library -- Source Token Library -- Sink Token Library -- Operator Token Library -- Function Token Library -- Communications Token Library -- Logic Token Library -- SystemVue Simulation Displays -- Analysis Toolbar -- Temporal Displays -- Spectral Displays -- Correlation Display -- Dynamic System Probe -- Analog Communication Systems Using SystemVue -- Amplitude Modulation -- Frequency Modulation -- Baseband Modulation and Demodulation -- Rectangular Pulse Amplitude Modulation -- SystemVue Simulation of Rectangular PAM -- Rectangular PAM Power Spectral Density -- Performance of Rectangular PAM in a Simple Receiver in AWGN -- Performance of Filtered Rectangular PAM in a Simple Receiver in AWGN -- Sinc Pulse Amplitude Modulation -- SystemVue Simulation of Sinc PAM -- Sinc PAM Power Spectral 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