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[综合资料] 一本好书(Theory and Applications of OFDM and CDMA:Wideband Wireless Communi

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发表于 2006-5-24 10:12:00 | 显示全部楼层 |阅读模式
书的目录如下
1 Basics of Digital Communications
1.1 Orthogonal Signals and Vectors
1.1.1 The Fourier base signals
1.1.2 The signal space
1.1.3 Transmitters and detectors
1.1.4 Walsh functions and orthonormal transmit bases
1.1.5 Nonorthogonal bases
1.2 Baseband and Passband Transmission
1.2.1 Quadrature modulator
1.2.2 Quadrature demodulator
1.3 The AWGN Channel
1.3.1 Mathematical wideband AWGN
1.3.2 Complex baseband AWGN
1.3.3 The discrete AWGN channel
1.4 Detection of Signals in Noise
1.4.1 Sufficient statistics
1.4.2 Maximum likelihood sequence estimation
1.4.3 Pairwise error probabilities
1.5 Linear Modulation Schemes
1.5.1 Signal-to-noise ratio and power efficiency
1.5.2 ASK and QAM
1.5.3 PSK
1.5.4 DPSK
1.6 Bibliographical Notes
1.7 Problems
2 Mobile Radio Channels
2.1 Multipath Propagation
2.2 Characterization of Fading Channels
2.2.1 Time variance and Doppler spread
2.2.2 Frequency selectivity and delay spread
2.2.3 Time- and frequency-variant channels
2.2.4 Time-variant random systems: the WSSUS model
2.2.5 Rayleigh and Ricean channels
2.3 Channel Simulation
2.4 Digital Transmission over Fading Channels
2.4.1 The MLSE receiver for frequency nonselective and slowly fading channels
2.4.2 Real-valued discrete-time fading channels
2.4.3 Pairwise error probabilities for fading channels
2.4.4 Diversity for fading channels
2.4.5 The MRC receiver
2.4.6 Error probabilities for fading channels with diversity
2.4.7 Transmit antenna diversity
2.5 Bibliographical Notes
2.6 Problems
3 Channel Coding
3.1 General Principles
3.1.1 The concept of channel coding
3.1.2 Error probabilities
3.1.3 Some simple linear binary block codes
3.1.4 Concatenated coding
3.1.5 Log-likelihood ratios and the MAP receiver
3.2 Convolutional Codes
3.2.1 General structure and encoder
3.2.2 MLSE for convolutional codes: the Viterbi algorithm
3.2.3 The soft-output Viterbi algorithm (SOVA)
3.2.4 MAP decoding for convolutional codes: the BCJR algorithm
3.2.5 Parallel concatenated convolutional codes and turbo decoding
3.3 Reed–Solomon Codes
3.3.1 Basic properties
3.3.2 Galois field arithmetics
3.3.3 Construction of Reed–Solomon codes
3.3.4 Decoding of Reed–Solomon codes
3.4 Bibliographical Notes
3.5 Problems
4 OFDM
4.1 General Principles
4.1.1 The concept of multicarrier transmission
4.1.2 OFDMas multicarrier transmission
4.1.3 Implementation by FFT
4.1.4 OFDMwith guard interval
4.2 Implementation and Signal Processing Aspects for OFDM
4.2.1 Spectral shaping for OFDMsystems
4.2.2 Sensitivity of OFDM signals against nonlinearities
4.3 Synchronization and Channel Estimation Aspects for OFDM Systems
4.3.1 Time and frequency synchronization for OFDM systems
4.3.2 OFDM with pilot symbols for channel estimation
4.3.3 TheWiener estimator
4.3.4 Wiener filtering for OFDM
4.4 Interleaving and Channel Diversity for OFDM Systems
4.4.1 Requirements of the mobile radio channel
4.4.2 Time and frequency interleavers
4.4.3 The diversity spectrum of a wideband multicarrier channel
4.5 Modulation and Channel Coding for OFDM Systems
4.5.1 OFDM systems with convolutional coding and QPSK
4.5.2 OFDM systems with convolutional coding and M2-QAM
4.5.3 Convolutionally coded QAM with real channel estimation and imperfect interleaving
4.5.4 Antenna diversity for convolutionally coded QAM multicarrier systems
4.6 OFDMSystem Examples
4.6.1 The DAB system
4.6.2 The DVB-T system
4.6.3 WLAN systems
4.7 Bibliographical Notes
4.8 Problems
5 CDMA
5.1 General Principles of CDMA
5.1.1 The concept of spreading
5.1.2 Cellular mobile radio networks
5.1.3 Spreading codes and their properties
5.1.4 Methods for handling interference in CDMA mobile radio networks 284
5.2 CDMA Transmission ChannelModels
5.2.1 Representation of CDMA signals
5.2.2 The discrete channel model for synchronous transmission in a frequency-flat channel
5.2.3 The discrete channel model for synchronous wideband MC-CDMA transmission
5.2.4 The discrete channel model for asynchronous wideband CDMA transmission
5.3 Receiver Structures for Synchronous Transmission
5.3.1 The single-user matched filter receiver
5.3.2 Optimal receiver structures
5.3.3 Suboptimal linear receiver structures
5.3.4 Suboptimal nonlinear receiver structures
5.4 Receiver Structures for MC-CDMA and Asynchronous Wideband CDMA Transmission
5.4.1 The RAKE receiver
5.4.2 Optimal receiver structures
5.5 Examples for CDMA Systems
5.5.1 Wireless LANs according to IEEE 802.11
5.5.2 Global Positioning System
5.5.3 Overview of mobile communication systems
5.5.4 Wideband CDMA
5.5.5 Time Division CDMA
5.5.6 cdmaOne
5.5.7 cdma2000
5.6 Bibliographical Notes
5.7 Problems

【文件名】:06524@52RD_Theory and Applications of OFDM and CDMA:Wideband Wireless Communications.rar
【格 式】:rar
【大 小】:4008K
【简 介】:
【目 录】:


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