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Rating: 
Summary: Van Trees' "Detection, Estimation and Modulation Theory"
Review: As the previous reviewer mentioned, this book will be brought into its full use when combining with Van Tree's book. Now, it's the chance for you to get this hard to find, out-of-print classic -- Please visit amazon's z-shop.
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Summary: Excellent for optimum receiver principles
Review: I used parts of this book in a digital communications course at UIUC. The book is written in a very lucid manner, atleast the chapters that I referred to - 3, 4 & 5. They provide a solid understanding to the subject material and it may seem mind boggling that even though the book was written way back in 1965 it is still a classic and is considered as one of the best references for optimum receiver principles. It makes for some smooth and sufficient reading (chaps. 3,4,5) when compared to other books such as that by Proakis etc. A must buy for any person in the Communication Area!
Rating:
Summary: Excellent for optimum receiver principles
Review: I used parts of this book in a digital communications course at UIUC. The book is written in a very lucid manner, atleast the chapters that I referred to - 3, 4 & 5. They provide a solid understanding to the subject material and it may seem mind boggling that even though the book was written way back in 1965 it is still a classic and is considered as one of the best references for optimum receiver principles. It makes for some smooth and sufficient reading (chaps. 3,4,5) when compared to other books such as that by Proakis etc. A must buy for any person in the Communication Area!
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Summary: Should be in every library
Review: This 1965 textbook is arguably the most scholarly textbook ever written for communication engineers. Although the Proakis and Sklar (and also McKay) books are the standard textbooks for digital communications and estimation/detection theory nowadays; they don't even come close to this textbook. The Proakis textbook has gotten the unfortunate reputation as having the most comprehensive treatment regarding "hard-core" communication theory. However, the divergence between modern textbooks which are "practical" versus older textbooks which focus more on "theory" is very clear. Somewhere along the way, today's textbooks have truly lost much of the hard-core theory, and this book has it.The Chapters are as follows: (1) Introduction (2) Probability Theory (3)Random Waveforms (4)Optimum Receiver Principles (5)Efficient Signaling for Message Sequences (6) Implementation of Coding Systems (7) Important Channel Models (8) Waveforms Communications and appendixes (A-D) The chapter on probability is bar-none the most comprehensive I have ever seen in any digital communications book, and covers multidimensional pdf's and explains the significance of moments and other things you might only find in a book dedicated specifically to stochastic processes. The coverage of the topics on signal-spaces is fantastic, and the chapter on optimum receivers is also extremely thorough despite the age of this book. Wozencrafts treatment of "channel capacity" and the derivations which he provides are unlike anything in any other book, covering the sphere packing argument quite thoroughly (the only other author to ever get this comprehensive was Shannon himself, and Pierce in his 1960'is vintage book on information theory). His coverage of various important bounds is covered very well (i.e. Chernoff bound) such that even an undergraduate can understand it. Other chapters are equally well written. No, the book obviously is not as up to date as Sklar or Proakis and doesn't cover alot of the more "practical" aspects of modern communications.... but if you want a die-hard communication theory book... this is a classic must-have.
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Summary: Classic Communication Theory Textbook
Review: This book (combined with Van Trees' "Detection, Estimation, and Modulation Theory, vol.1) is an excellent manuscript for a graduate level study of communication theory. Especially valuable is the chapter 4 (about optimum receiver principles), that makes this book a buy. For the more enthusiastic student, Chapter 5 gives the derivation of the Shannon Capacity Theorem, a concept that makes one proud to understand. Chapters 2 & 3 provide very strong background on probability and random processes. Chapter 6,7,8 are about implementation, channel models, and waveform communications, and they are outdated.
All in all, this is one of the most valuable books for me in my personal library.
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Summary: The Bible for Graduate-Level Digital Communications
Review: This book is the best "text book" ever written for graduate-level digital communications, though some contents of the latter half part of this book is outdated. The highlight of this book is its excellence in explaning "signal space concept" and "sufficiency of observables for optimum detection". Forget other textbooks and references you have. Read this book. I haven't yet found any other book that has better explanation on these topics.
Rating:
Summary: The Bible for Graduate-Level Digital Communications
Review: This book is the best "text book" ever written for graduate-level digital communications, though some contents of the latter half part of this book is outdated. The highlight of this book is its excellence in explaning "signal space concept" and "sufficiency of observables for optimum detection". Forget other textbooks and references you have. Read this book. I haven't yet found any other book that has better explanation on these topics.
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