Overview

The orthogonality of functions has been exploited in communications since its very beginning. Conscious and extensive use was made of it by Kotel'nikov in theoretical work in 1947. Ten years later a considerable number of people were working in this field. However, little experimental use could be made of the theoretical results before the arrival of solid state operational amplifiers and integrated circuits. The advantages of Walsh functions, which are emphasized in this book, were recognized independently by several scientists in the early sixties. Among them were E. Gibbs, K. Henderson, F.Ohnsorg, G. Sandy and E. Vandivere, whose work was not published until many years later. Somewhat more than half the illustrations in this second edition were not contained in the first edition and this reflects the changes in contents. The most striking difference between the two editions is the progress toward practical applications made in the intervening three years. However, it may turn out that the most important change is one that appears rather theoretical on the surface and that concerns shift-invariant features strongly connected with sine-cosine functions. These functions are projections of the exponential function which, in turn, is the character group of the real numbers. The topology of the real numbers is generally accepted to be the same as that of time or a one-dimensional space, and this is the basis for a variety of claims that sinusoidal functions are unique and superior to all others.

Full Product Details

Author:   Henning F. Harmuth
Publisher:   Springer-Verlag Berlin and Heidelberg GmbH & Co. KG
Imprint:   Springer-Verlag Berlin and Heidelberg GmbH & Co. K
Edition:   2nd ed. 1972. Softcover reprint of the original 2nd ed. 1972
Dimensions:   Width: 15.50cm , Height: 2.10cm , Length: 23.50cm
Weight:   0.616kg
ISBN:  

9783642619762

ISBN 10:   3642619762
Pages:   394
Publication Date:   06 November 2011
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   Manufactured on demand  
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Table of Contents

Historical Background and Motivation for the Use of Nonsinusoidal Functions 1.- Orthogonal Functions, Walsh Functions and Other Basic Mathematical Concepts 3.- Filtering of Time and Space Signals 6.- Direct and Carrier Transmission of Signals 6.- Nonsinusoidal Electromagnetic Waves 7.- Statistical Theory of Communication 8.- 1. Mathematical Foundations.- 1.1 Orthogonal Functions.- 1.2 Generalized Fourier Analysis.- 1.3 Generalized Frequency.- 2. Sequency Filters for Time and Space Signals.- 2.1 Correlation Filters for Time Signals.- 2.2 Resonance Filters for Time Signals.- 2.3 Instantaneous Filters for Space Signals.- 2.4 Sampling Filters for Space Signals.- 2.5 Digital Sequency Filters.- 3. Direct Transmission of Signals.- 3.1 Orthogonal Division as Generalization of Time and Frequency Division.- 3.2 Practical Problems of Transmission.- 3.3 Characterization of Communication Channels.- 4. Carrier Transmission of Signals.- 4.1 Amplitude Modulation (AM).- 4.2 Multiplexing of Time Variable Signals.- 4.3 Time Base, Time Position and Code Modulation.- 5. Nonsinusoidal Electromagnetic Waves.- 5.1 Dipole Radiation of Walsh Waves.- 5.2 Multipole Radiation of Walsh Waves.- 5.3 Interference Effects, Doppler Effect.- 5.4 Signal Selection and Synchronization.- 6. Application of Orthogonal Functions To Statistical Problems.- 6.1 Series Expansion of Stochastic Functions.- 6.2 Additive Disturbances.- 6.3 Multiplicative Disturbances.- 7. Signal Design for Improved Reliability.- 7.1 Transmission Capacity.- 7.2 Error Probability of Signals.- 7.3 Coding.- References.

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