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This volumes discusses various aspects regarding the capacity/achievable data rate of stationary Rayleigh fading channels. First, it analyses bounds on the achievable data rate with zero-mean proper Gaussian input symbols, which are capacity achieving in the coherent case, i.e., in case of perfect channel knowledge at the receiver. These bounds are tight in the sense that the difference between the upper and the lower bound is bounded for all SNRs. The lower bound converges to the coherent capacity for asymptotically small channel dynamics. Furthermore, these bounds are extended to the case of multiple-input multiple-output (MIMO) channels and to the case of frequency selective channels. In a further part, the present work studies the achievable rate with receivers based on synchronized detection and a code-aided channel estimation. For a specific type of such a receiver an approximate upper bound on the achievable rate is derived. The comparison of this approximate upper bound and the achievable data rate with receivers using synchronized detection based on a solely pilot based channel estimation gives an approximate upper bound on the possible gain by using this kind of code-aided channel estimation in comparison to the conventional receiver using a solely pilot based channel estimation. In addition, the achievable data rate with an optimal joint processing of pilot and data symbols is studied and a lower bound on the achievable rate for this case is derived. In this context, it is also shown which part of the mutual information of the transmitter and the receiver is discarded when using the conventional receiver with synchronized detection based on a solely pilot based channel estimation.
Helps readers to learn, understand, and apply some fundamental concepts of information and communication theory Analyses the possible performance gain in stationary Rayleigh fading channels for mobile communication systems Examines mutual information between transmitter and receiver for a given discrete signaling set Includes supplementary material: sn.pub/extras
Texte du rabat
Virtually all mobile communications systems face the problem that transmission takes place over a time-varying fading channel whose realization is unknown to the receiver. For the design of communication systems it is important to know performance limits for communication over such channels. Therefore, the present book discusses various aspects regarding the capacity/achievable data rate of stationary fading channels. In this regard, it spans a wide range from bounds on the capacity/achievable rate for such channels to a study of the achievable rate with practical receivers. It reveals in detail which portion of the mutual information between the transmitter and the receiver can be retrieved in practice by synchronized detection.
In this context, the book covers:
Contenu
Introduction.- Discrete-Time Flat-Fading System Model.- Bounds on the Achievable Rate of a Flat-Fading Channel.- Bounds on the Achievable Rate of a Flat-Fading Channel Based on Prediction.- Pilot Based Synchronized Detection.- Iterative Code-Aided Synchronized Detection.- Joint Processing of Pilot and Data Symbols.- MIMO Flat-Fading Channels.- Frequency-Selective Channels.- Optimum Discrete Signaling.- Conclusion.- Mathematical Derivations and Proofs.
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