Information Theory

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Three Theorems by Claude Shannon, UNITEXT 144 – La Matematica per il 3+2

ISBN:	3031215605
ISBN 13:	9783031215605
Autor:	Chambert-Loir, Antoine
Verlag:	Springer Verlag GmbH
Umfang:	xii, 209 S., 1 s/w Illustr., 209 p. 1 illus.
Erscheinungsdatum:	16.03.2023
Auflage:	1/2023
Produktform:	Kartoniert
Einband:	Kartoniert
Originaltitel:	Théorie de l’information—Trois théorèmes de Claude Shannon

This book provides an introduction to information theory, focussing on Shannon’s three foundational theorems of 1948-1949. Shannon’s first two theorems, based on the notion of entropy in probability theory, specify the extent to which a message can be compressed for fast transmission and how to erase errors associated with poor transmission. The third theorem, using Fourier theory, ensures that a signal can be reconstructed from a sufficiently fine sampling of it. These three theorems constitute the roadmap of the book. The first chapter studies the entropy of a discrete random variable and related notions. The second chapter, on compression and error correcting, introduces the concept of coding, proves the existence of optimal codes and good codes (Shannon’s first theorem), and shows how information can be transmitted in the presence of noise (Shannon’s second theorem). The third chapter proves the sampling theorem (Shannon’s third theorem) and looks at its connections with other results, such as the Poisson summation formula. Finally, there is a discussion of the uncertainty principle in information theory.Featuring a good supply of exercises (with solutions), and an introductory chapter covering the prerequisites, this text stems out lectures given to mathematics/computer science students at the beginning graduate level.

Artikelnummer: 7244402 Kategorie: Informatik

Beschreibung

Beschreibung

This book provides an introduction to information theory, focussing on Shannons three foundational theorems of 1948-1949. Shannons first two theorems, based on the notion of entropy in probability theory, specify the extent to which a message can be compressed for fast transmission and how to erase errors associated with poor transmission. The third theorem, using Fourier theory, ensures that a signal can be reconstructed from a sufficiently fine sampling of it. These three theorems constitute the roadmap of the book. The first chapter studies the entropy of a discrete random variable and related notions. The second chapter, on compression and error correcting, introduces the concept of coding, proves the existence of optimal codes and good codes (Shannon's first theorem), and shows how information can be transmitted in the presence of noise (Shannon's second theorem). The third chapter proves the sampling theorem (Shannon's third theorem) and looks at its connections with other results, such as the Poisson summation formula. Finally, there is a discussion of the uncertainty principle in information theory.Featuring a good supply of exercises (with solutions), and an introductory chapter covering the prerequisites, this text stems out lectures given to mathematics/computer science students at the beginning graduate level.

Autorenporträt

Antoine Chambert-Loir is a professor of mathematics at Université Paris Cité. His research addresses questions in algebraic geometry which are motivated by number theoretical problems. He is the author of two books published by Springer-Verlag: A Field Guide To Algebra, an introduction to Galois theory; and (Mostly) Commutative Algebra, an intermediate-level exposition of commutative algebra. With J. Nicaise and J. Sebag, he cowrote the research monograph Motivic Integration (published by Birkhäuser), which was awarded the 2017 Ferran Sunyer i Balaguer prize.