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Only a few books stand as landmarks in social and scientific
upheaval. Norbert Wiener's classic is one in that small company.
Founder of the science of cybernetics--the study of the
relationship between computers and the human nervous system--Wiener
was widely misunderstood as one who advocated the automation of
human life. As this book reveals, his vision was much more complex
and interesting. He hoped that machines would release people from
relentless and repetitive drudgery in order to achieve more
creative pursuits. At the same time he realized the danger of
dehumanizing and displacement. His book examines the implications
of cybernetics for education, law, language, science, technology,
as he anticipates the enormous impact--in effect, a third
industrial revolution--that the computer has had on our lives.
The book was written from lectures given at the University of
Cambridge and maintains throughout a high level of rigour whilst
remaining a highly readable and lucid account. Topics covered
include the Planchard theory of the existence of Fourier transforms
of a function of L2 and Tauberian theorems. The influence of G. H.
Hardy is apparent from the presence of an application of the theory
to the prime number theorems of Hadamard and de la Vallee Poussin.
Both pure and applied mathematicians will welcome the reissue of
this classic work. For this reissue, Professor Kahane's Foreword
briefly describes the genesis of Wiener's work and its later
significance to harmonic analysis and Brownian motion.
This Is A Study Of Human Control Functions And Mechanico-Electrical
Systems Designed To Replace Them.
This is a new release of the original 1949 edition.
2014 Reprint of 1959 Edition. Full facsimile of the original
edition, not reproduced with Optical Recognition Software. The book
was written from lectures given at the University of Cambridge and
maintains throughout a high level of rigour whilst remaining a
highly readable and lucid account. Topics covered include the
Planchard theory of the existence of Fourier transforms of a
function of L2 and Tauberian theorems. The influence of G. H. Hardy
is apparent from the presence of an application of the theory to
the prime number theorems of Hadamard and de la Vallee Poussin.
Both pure and applied mathematicians will welcome the reissue of
this classic work. This book contains Wiener's essential ideas
regarding harmonic analysis and should be read by anyone working in
the field.
This is a new release of the original 1949 edition.
2013 Reprint of 1958 Edition. Full facsimile of the original
edition, not reproduced with Optical Recognition Software. A series
of lectures on the role of nonlinear processes in physics,
mathematics, electrical engineering, physiology, and communication
theory. From the preface: "For some time I have been interested in
a group of phenomena depending upon random processes. One the one
hand, I have recorded the random shot effect as a suitable input
for testing nonlinear circuits. On the other hand, for some of the
work that Professor W. A. Rosenblith and I have been doing
concerning the nature of the electroencephalogram, and in
particular of the alpha rhythm, it has occurred to me to use the
model of a system of random nonlinear oscillators excited by a
random input. . . . At the beginning we had contemplated a series
of only four or five lectures. My ideas developed pari passu with
the course, and by the end of the term we found ourselves with a
set of fifteen lectures. The last few of these were devoted to the
application of my ideas to problems in the statistical mechanics of
gases. This work is both new and tentative, and I found that I had
to supplement my course by the writing over of these with the help
of Professer Y. W. Lee. "
2013 Reprint of 1949 Edition. Full facsimile of the original
edition, not reproduced with Optical Recognition Software. This is
the second book by Norbert Wiener on time series and communication
engineering. While the first one, "Cybernetics," treated the
subject from a general standpoint and was more philosophical than
mathematical, the present volume is more technical than
theoretical, and forms a kind of companion piece to the first. It
is intended as a tool for engineers working in the field of
electrical communication and related subjects. The book consists of
an introduction, five chapters, and three appendices. After
explaining the general outline of the problem in the introduction,
the author gives in Chapter I a review of generalized harmonic
analysis which is necessary for the understanding of the following
chapters. Chapters II and III are devoted to the problems of
prediction and filtering respectively. In Chapter IV there is given
a brief account of the theory of multiple prediction, that is, the
theory of prediction when we deal with more than one time series at
the same time. Finally, in Chapter V there is given a short
discussion on the application of similar methods to a problem of
approximate differentiation.
2013 Reprint of 1961 Second Edition. Full facsimile of the original
edition, not reproduced with Optical Recognition Software.
Acclaimed one of the "seminal books... comparable in ultimate
importance to... Galileo or Malthus or Rousseau or Mill,"
"Cybernetics" was judged by twenty-seven historians, economists,
educators, and philosophers to be one of those books published
during the "past four decades," which may have a substantial impact
on public thought and action in the years ahead." -- Saturday
Review. Cybernetics was defined in the mid 20th century by Norbert
Wiener as "the scientific study of control and communication in the
animal and the machine." Fields of study which have influenced or
been influenced by cybernetics include game theory, system theory
(a mathematical counterpart to cybernetics), perceptual control
theory, sociology, psychology (especially neuropsychology,
behavioral psychology, cognitive psychology), philosophy,
architecture, and organizational theory. Contents: Part one:
original edition - Newtonian and Bergsonian time - Groups and
statistical mechanics - Time series, information, and communication
- Feedback and oscillation - Computing machines and nervous system
- Gestalt and universals - Cybernetics and psychopathology -
Information, language, and society - Part two: supplement chapters
- On learning and self - reproducing machines - Brain waves and
self - organizing systems.
CYBERNETICS is on virtually everyone's short list of the most
important and influential nonfiction books of the last century.
First published by MIT mathematics professor Norbert Wiener in
1948, and later in its Second Edition in 1961, this groundbreaking
account of systems, thought processes, AI, and the use of
"feedback" foreshadowed intelligent and replicating machines,
complex organizational organisms, and the physiology and failure of
the human nervous system. Its 1961 Second Edition is the same
version republished in many paperback editions since (such as the
1965 printing by MIT Press), and represents the culmination of the
author's work on this project. No small wonder this has been widely
read by scientists and lay readers alike, to understand the origins
and future of computers, wider communication pathways, the use of
feedback to refine actions and thought processes, and the logic and
math behind non-linear systems. Educated readers know the term
"cybernetics"; this book coined the term and created an entire
field of interdisciplinary study that resonates today, and led to
the "cyber"-everything that we know. Norbert Wiener, known as the
"Father of Cybernetics," has influenced such fields of study as
game theory, system theory, sociology, psychology and neuroscience,
modern philosophy, organizational theory, and even architecture.
This Is A Study Of Human Control Functions And Mechanico-Electrical
Systems Designed To Replace Them.
This Is A Study Of Human Control Functions And Mechanico-Electrical
Systems Designed To Replace Them.
This Is A Study Of Human Control Functions And Mechanico-Electrical
Systems Designed To Replace Them.
After World War II, communication and control engineering
reached a high level of development. The next step may be the
recasting and unifying of the theories of control and communication
in the machine and in the animal on a statistical basis. This
monograph represents one phase of the new theory pertaining to the
methods and techniques in the design of communications; it was
first published during the war as a classified report to the
National Defense Research Committee. It is an attempt to unite the
theory and practice of two fields of work that are of vital
importance and have a complete natural methodological unity,
although they draw their inspiration from two entirely distinct
traditions and are widely different in their vocabulary and the
training of their personnel--time series in statistics and
communication engineering.
Internationally honored for brilliant achievements throughout
his career, author of Cybernetics, ExProdigy, and the essay God and
Golem, Inc., which won the National Book Award in 1964, Norbert
Wiener was no ordinary mathematician. With the ability to
understand how things worked or might work at a very deep level, he
linked his own mathematics to engineering and provided basic ideas
for the design of all sorts of inventions, from radar to
communications networks to computers to artificial limbs. Wiener
had an abiding concern about the ethics guiding applications of
theories he and other scientists developed. Years after he died,
the manuscript for this book was discovered among his papers. The
world of science has changed greatly since Wiener's day, and much
of the change has been in the direction he warned against. Now
published for the first time, this book can be read as a salutary
corrective from the past and a chance to rethink the components of
an environment that encourages inventiveness.Wiener provides an
engagingly written insider's understanding of the history of
discovery and invention, emphasizing the historical circumstances
that foster innovations and allow their application. His message is
that truly original ideas cannot be produced on an assembly line,
and that their consequences are often felt only at distant times
and places. The intellectual and technological environment has to
be right before the idea can blossom. The best course for society
is to encourage the best minds to pursue the most interesting
topics, and to reward them for the insights they produce. Wiener's
comments on the problem of secrecy and the importance of the
"free-lance" scientist are particularly pertinent today.Steve Heims
provides a brief history of Wiener's literary output and reviews
his contributions to the field of invention and discovery. In
addition, Heims suggests significant ways in which Wiener's ideas
still apply to dilemmas facing the scientific and engineering
communities of the 1990s. Norbert Wiener (1894-1964) was Institute
Professor at the Massachusetts Institute of Technology.
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