Decoding Algorithms For Continuous Phase Modulation


Restricted search decoding of severe filtered continuous phase modulation

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Page : pages

File Size : 12,18 MB

Release : 1902

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No presente trabalho é examinada a decodificação de esquemas CPM (Continuous Phase Modulation) filtrados severamente (filtragem com resposta impulsional infinita) utilizando-se algoritmo M, um algoritmo de busca limitada. A estrutura formada pelo modulador CPM seguido do filtro é tratada como um esquema que realiza modulação codificada com utilização eficiente de faixa. A caracterização da modulação através de estados requer um número infinito de estados. O esquema é analisado através de simulação de sistema modulado em tempo discreto com processamento digital. A utilização de filtro digital permite uma caracterização de estados simplificada em relação a trabalhos anteriores. Uma versão simplificada do algoritmo M é analisada neste trabalho. Através de simulação realiza-se a análise do desempenho do sistema assim como do comportamento do algoritmo M na sua versão simplificada.



Digital Phase Modulation

Author : John B. Anderson

Publisher : Springer Science & Business Media

Page : 509 pages

File Size : 34,34 MB

Release : 2013-11-11

Category : Technology & Engineering

ISBN : 1489920315

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Book Description

The last ten years have seen a great flowering of the theory of digital data modulation. This book is a treatise on digital modulation theory, with an emphasis on these more recent innovations. It has its origins in a collabor ation among the authors that began in 1977. At that time it seemed odd to us that the subjects of error-correcting codes and data modulation were so separated; it seemed also that not enough understanding underlay the mostly ad hoc approaches to data transmission. A great many others were intrigued, too, and the result was a large body of new work that makes up most of this book. Now the older disciplines of detection theory and coding theory have been generalized and applied to the point where it is hard to tell where these end and the theories of signal design and modulation begin. Despite our emphasis on the events of the last ten years, we have included all the traditional topics of digital phase modulation. Signal space concepts are developed, as are simple phase-shift-keyed and pulse-shaped modulations; receiver structures are discussed, from the simple linear receiver to the Viterbi algorithm; the effects of channel filtering and of hardlimiting are described. The volume thus serves well as a pedagogical book for research engineers in industry and second-year graduate students in communications engineering. The production of a manageable book required that many topics be left out.



Advanced Synchronization Techniques for Continuous Phase Modulation

Author : Qing Zhao

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Page : pages

File Size : 45,64 MB

Release : 2006

Category : Iterative methods (Mathematics)

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The objective of this research work is to develop reliable and power-efficient synchronization algorithms for continuous phase modulation (CPM). CPM is a bandwidth and power efficient signaling scheme suitable for wireless and mobile communications. Binary CPM schemes have been widely used in many commercial and military systems. CPM with multilevel symbol inputs, i.e., M-ary CPM, can achieve a higher data rate than binary CPM. However, the use of M-ary CPM has been limited due to receiver complexity and synchronization problems. In the last decade, serially concatenated CPM (SCCPM) has drawn more attention since this turbo-like coded scheme can achieve near Shannon-limit performance by performing iterative demodulation/decoding. Note that SCCPM typically operates at a low signal-to-noise ratio, which makes reliable and power-efficient synchronization more challenging. In this thesis, we propose a novel timing and phase recovery technique for CPM. Compared to existing maximum-likelihood estimators, the proposed data-aided synchronizer can achieve a better acquisition performance when a preamble is short or channel model errors are present. We also propose a novel adaptive soft-input soft-output (A-SISO) module for iterative detection with parameter uncertainty. In contrast to the existing A-SISO algorithms using linear prediction, the parameter estimation in the proposed structure is performed in a more general least-squares sense. Based on this scheme, a family of fixed-interval A-SISO algorithms are utilized to implement blind iterative phase synchronization for SCCPM. Moreover, the convergence characteristics of iterative phase synchronization and detection are analyzed by means of density evolution. Particularly, an oscillatory convergence behavior is observed when cycle slips occur during phase tracking. In order to reduce performance degradation due to this convergence fluctuation, design issues, including delay depth of the proposed algorithms, iteration-stopping criteria and interleaver size, are also discussed. Finally, for completeness of the study on phase synchronization, we investigate the error probability performance of noncoherently detected full-response CPM, which does not require channel (or phase) estimation.



Coded Modulation Systems

Author : John B. Anderson

Publisher : Springer Science & Business Media

Page : 494 pages

File Size : 19,51 MB

Release : 2006-04-11

Category : Technology & Engineering

ISBN : 0306477920

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Book Description

Coded Modulation Systems is an introduction to the subject of coded modulation in digital communication. It is designed for classroom use and for anyone wanting to learn the ideas behind this modern kind of coding. Coded modulation is signal encoding that takes into account the nature of the channel over which it is used. Traditional error correcting codes work with bits and add redundant bits in order to correct transmission errors. In coded modulation, continuous time signals and their phases and amplitudes play the major role. The coding can be seen as a patterning of these quantities. The object is still to correct errors, but more fundamentally, it is to conserve signal energy and bandwidth at a given error performance. The book divides coded modulation into three major parts. Trellis coded modulation (TCM) schemes encode the points of QAM constellations; lattice coding and set-partition techniques play major roles here. Continuous-phase modulation (CPM) codes encode the signal phase, and create constant envelope RF signals. The partial-response signaling (PRS) field includes intersymbol interference problems, signals generated by real convolution, and signals created by lowpass filtering. In addition to these topics, the book covers coding techniques of several kinds for fading channels, spread spectrum and repeat-request systems. The history of the subject is fully traced back to the formative work of Shannon in 1949. Full explanation of the basics and complete homework problems make the book ideal for self-study or classroom use.





Conference Record

Author : Johannes Huber (Prof. Dr.-Ing.)

Publisher : Margret Schneider

Page : 487 pages

File Size : 21,39 MB

Release : 2004

Category : Coding theory

ISBN : 3800728028

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Iterative Decoding of Coded Continuous Phase Modulation

Author : Victor F. Szeto

Publisher :

Page : pages

File Size : 24,50 MB

Release : 1998

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ISBN :

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Book Description

In this thesis, the concept of iterative decoding is applied to demodulating and decoding coded continuous phase modulation (CPM). The background theory of iterative decoding and CPM is reviewed. Various types of concatenation are studied and simulation results show the performance of different systems in Gaussian and Rayleigh fading channels. It is found that coded CPM system with iterative decoding has a good bit error rate performance; however, the choice of constituent encoders is an important parameter in determining the overall performance.