|
Showing 1 - 6 of
6 matches in All Departments
The modem theory of Markov processes has its origins in the studies
of A. A. MARKOV (1906-1907) on sequences of experiments "connected
in a chain" and in the attempts to describe mathematically the
physical phenomenon known as Brownian motion (L. BACHELlER 1900, A.
EIN STEIN 1905). The first correct mathematical construction of a
Markov process with continuous trajectories was given by N. WIENER
in 1923. (This process is often called the Wiener process.) The
general theory of Markov processes was developed in the 1930's and
1940's by A. N. KOL MOGOROV, W. FELLER, W. DOEBLlN, P. LEVY, J. L.
DOOB, and others. During the past ten years the theory of Markov
processes has entered a new period of intensive development. The
methods of the theory of semigroups of linear operators made
possible further progress in the classification of Markov processes
by their infinitesimal characteristics. The broad classes of Markov
processes with continuous trajectories be came the main object of
study. The connections between Markov pro cesses and classical
analysis were further developed. It has become possible not only to
apply the results and methods of analysis to the problems of
probability theory, but also to investigate analytic problems using
probabilistic methods. Remarkable new connections between Markov
processes and potential theory were revealed. The foundations of
the theory were reviewed critically: the new concept of strong
Markov process acquired for the whole theory of Markov processes
great importance."
This book is devoted to the systematic exposition of the
contemporary theory of controlled Markov processes with discrete
time parameter or in another termi nology multistage Markovian
decision processes. We discuss the applications of this theory to
various concrete problems. Particular attention is paid to mathe
matical models of economic planning, taking account of stochastic
factors. The authors strove to construct the exposition in such a
way that a reader interested in the applications can get through
the book with a minimal mathe matical apparatus. On the other hand,
a mathematician will find, in the appropriate chapters, a rigorous
theory of general control models, based on advanced measure theory,
analytic set theory, measurable selection theorems, and so forth.
We have abstained from the manner of presentation of many
mathematical monographs, in which one presents immediately the most
general situation and only then discusses simpler special cases and
examples. Wishing to separate out difficulties, we introduce new
concepts and ideas in the simplest setting, where they already
begin to work. Thus, before considering control problems on an
infinite time interval, we investigate in detail the case of the
finite interval. Here we first study in detail models with finite
state and action spaces-a case not requiring a departure from the
realm of elementary mathematics, and at the same time illustrating
the most important principles of the theory."
The theory of Markov Processes has become a powerful tool in
partial differential equations and potential theory with important
applications to physics. Professor Dynkin has made many profound
contributions to the subject and in this volume are collected
several of his most important expository and survey articles. The
content of these articles has not been covered in any monograph as
yet. This account is accessible to graduate students in mathematics
and operations research and will be welcomed by all those
interested in stochastic processes and their applications.
Combining three books into a single volume, this text comprises
Multicolor Problems, dealing with several of the classical
map-coloring problems; Problems in the Theory of Numbers, an
elementary introduction to algebraic number theory; and Random
Walks, addressing basic problems in probability theory. The book's
primary aim is not so much to impart new information as to teach an
active, creative attitude toward mathematics. The sole
prerequisites are high-school algebra and (for Multicolor Problems)
a familiarity with the methods of mathematical induction. The book
is designed for the reader's active participation. The problems are
carefully integrated into the text and should be solved in order.
Although they are basic, they are by no means elementary. Some
sequences of problems are geared toward the mastery of a new
method, rather than a definitive result, and others are practice
exercises, designed to introduce new concepts. Complete solutions
appear at the end.
|
You may like...
The Flash
Ezra Miller, Michael Keaton, …
Blu-ray disc
R198
R158
Discovery Miles 1 580
Testament
Wilbur Smith, Mark Chadbourn
Hardcover
R350
R180
Discovery Miles 1 800
|