Digital communication over fading channels / Marvin K. Simon, Mohamed-Slim Alouini.
Material type: TextSeries: Wiley series in telecommunications and signal processing ; 97Publisher: Hoboken, New Jersey : John Wiley & Sons, c2005Distributor: [Piscataqay, New Jersey] : IEEE Xplore, [2005]Edition: 2nd edDescription: 1 PDF (xxxiv, 900 pages) : illustrationsContent type:- text
- electronic
- online resource
- 9780471715221
- Digital communications -- Reliability -- Mathematics
- Radio -- Transmitters and transmission -- Fading
- AWGN
- AWGN channels
- Accuracy
- Antenna arrays
- Antennas
- Arrays
- Bandwidth
- Baseband
- Books
- Channel capacity
- Closed-form solution
- Coherence
- Communication systems
- Correlation
- Decoding
- Delay
- Demodulation
- Digital communication
- Direct-sequence code-division multiple access
- Diversity methods
- Diversity reception
- Eigenvalues and eigenfunctions
- Encoding
- Error probability
- Fading
- Frequency measurement
- Indexes
- Interchannel interference
- Interference
- Laplace equations
- Lead
- Maximum likelihood detection
- Modulation
- Multiaccess communication
- Nakagami distribution
- Pairwise error probability
- Probability density function
- Quadrature amplitude modulation
- Random variables
- Rayleigh channels
- Receivers
- Receiving antennas
- Sections
- Signal to noise ratio
- System performance
- Transmitters
- Transmitting antennas
- Upper bound
- Viterbi algorithm
- Wireless communication
- 621.382
Includes bibliographical references and index.
Preface. -- Nomenclature. -- PART 1: FUNDAMENTALS. -- Chapter 1. Introduction. -- Chapter 2. Fading Channel Characterization and Modeling. -- Chapter 3. Types of Communication. -- PART 2: MATHEMATICAL TOOLS. -- Chapter 4. Alternative Representations of Classical Functions. -- Chapter 5. Some Useful Expressions for Evaluating Average Error Probability Performance. -- Chapter 6. New Representations of Some Probability Density and Cumulative Distribution Functions for Correlative Fading Applications. -- PART 3: OPTIMUM RECEPTION AND PERFORMANCE EVALUATION. -- Chapter 7. Optimum Receivers for Fading Channels. -- Chapter 8. Performance of Single-Channel Receivers. -- Chapter 9. Performance of Multichannel Receivers. -- PART 4: MULTIUSER COMMUNICATION SYSTEMS. -- Chapter 10. Outage Performance of Multiuser Communication Systems. -- Chapter 11. Optimum Combining-A Diversity Technique for Communication Over Fading Channels in the Presence of Interference. -- Chapter 12. Direct-Sequence Code-Division Multiple Access (DS-CDMA). -- PART 5: CODED COMMUNICATION SYSTEMS. -- Chapter 13. Coded Communicatuion over Fading Channels. -- Chapter 14. Multichannel Transmission-Transmit Diversity and Space-Time Coding. -- Chapter 15. Capacity of Fading Channels. -- Index.
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"Digital Communication over Fading Channels, Second Edition is an indispensable resource for graduate students, researchers investigating these systems, and practicing engineers responsible for evaluating their performance."--Jacket.
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