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Mathematical Modeling of Biological Systems, Volume II - Epidemiology, Evolution and Ecology, Immunology, Neural Systems and the Brain, and Innovative Mathematical Methods (Hardcover, 2008 ed.)
Andreas Deutsch, Rafael Bravo de la Parra, Rob J. De Boer, Odo Diekmann, Peter Jagers, …
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R3,024
Discovery Miles 30 240
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Ships in 10 - 15 working days
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Volume II of this two-volume, interdisciplinary work is a
unified presentation of a broad range of state-of-the-art topics in
the rapidly growing field of mathematical modeling in the
biological sciences. Highlighted throughout are mathematical and
computational apporaches to examine central problems in the life
sciences, ranging from the organization principles of individual
cells to the dynamics of large populations. The chapters are
thematically organized into the following main areas: epidemiology,
evolution and ecology, immunology, neural systems and the brain,
and innovative mathematical methods and education.
The work will be an excellent reference text for a broad
audience of researchers, practitioners, and advanced students in
this rapidly growing field at the intersection of applied
mathematics, experimental biology and medicine, computational
biology, biochemistry, computer science, and physics.
This IMA Volume in Mathematics and its Applications CLASSICAL AND
MODERN BRANCHING PROCESSES is based on the proceedings with the
same title and was an integral part of the 1993-94 IMA program on
"Emerging Applications of Probability." We would like to thank
Krishna B. Athreya and Peter J agers for their hard work in
organizing this meeting and in editing the proceedings. We also
take this opportunity to thank the National Science Foundation, the
Army Research Office, and the National Security Agency, whose
financial support made this workshop possible. A vner Friedman
Robert Gulliver v PREFACE The IMA workshop on Classical and Modern
Branching Processes was held during June 13-171994 as part of the
IMA year on Emerging Appli cations of Probability. The organizers
of the year long program identified branching processes as one of
the active areas in which a workshop should be held. Krish na B.
Athreya and Peter Jagers were asked to organize this. The topics
covered by the workshop could broadly be divided into the following
areas: 1. Tree structures and branching processes; 2. Branching
random walks; 3. Measure valued branching processes; 4. Branching
with dependence; 5. Large deviations in branching processes; 6.
Classical branching processes."
A stunningly illustrated natural history of spiders Spiders are
among the most versatile creatures on the planet, inhabiting six of
the seven continents and thriving in environments ranging from
deserts and rain forests to Arctic tundra and cities. Spiders of
the World is a captivating look at these wondrously adaptable and
endlessly intriguing arachnids, written by six of the world's
leading experts on spiders. This stunningly illustrated natural
history features a wealth of spectacular color photos and covers a
breathtaking array of spider species from around the globe,
describing their behaviors, characteristics, and remarkable
evolutionary adaptations. An incisive and engaging introduction
provides an invaluable overview of the world's spiders, and is
followed by in-depth profiles spanning more than 100 spider
families and presented taxonomically. Each profile is organized
phylogenetically and includes beautiful photography to illustrate
various species within the family. There are also distribution
maps, tables of essential facts, and commentaries highlighting
diverse aspects of spider biology, making Spiders of the World an
indispensable volume for anyone who wants to learn more about these
marvelous creatures. Provides a richly illustrated look at spiders
of all shapes and sizes from around the world Features hundreds of
color photos and diagrams Spans more than 100 spider families and
covers an array of different species Explores spider behavior,
attributes, biology, and evolution Includes distribution maps,
tables of essential facts, informative commentaries, and more
Engages and educates readers about the unique natural history of
spiders
This IMA Volume in Mathematics and its Applications CLASSICAL AND
MODERN BRANCHING PROCESSES is based on the proceedings with the
same title and was an integral part of the 1993-94 IMA program on
"Emerging Applications of Probability." We would like to thank
Krishna B. Athreya and Peter J agers for their hard work in
organizing this meeting and in editing the proceedings. We also
take this opportunity to thank the National Science Foundation, the
Army Research Office, and the National Security Agency, whose
financial support made this workshop possible. A vner Friedman
Robert Gulliver v PREFACE The IMA workshop on Classical and Modern
Branching Processes was held during June 13-171994 as part of the
IMA year on Emerging Appli cations of Probability. The organizers
of the year long program identified branching processes as one of
the active areas in which a workshop should be held. Krish na B.
Athreya and Peter Jagers were asked to organize this. The topics
covered by the workshop could broadly be divided into the following
areas: 1. Tree structures and branching processes; 2. Branching
random walks; 3. Measure valued branching processes; 4. Branching
with dependence; 5. Large deviations in branching processes; 6.
Classical branching processes."
Biology takes a special place among the other natural sciences
because biological units, be they pieces of DNA, cells or
organisms, reproduce more or less faithfully. As for any other
biological processes, reproduction has a large random component.
The theory of branching processes was developed especially as a
mathematical counterpart to this most fundamental of biological
processes. This active and rich research area allows us to make
predictions about both extinction risks and the development of
population composition, and also uncovers aspects of a population's
history from its current genetic composition. Branching processes
play an increasingly important role in models of genetics,
molecular biology, microbiology, ecology and evolutionary theory.
This book presents this body of mathematical ideas for a biological
audience, but should also be enjoyable to mathematicians.
Biology takes a special place among the other natural sciences
because biological units, be they pieces of DNA, cells or
organisms, reproduce more or less faithfully. As for any other
biological processes, reproduction has a large random component.
The theory of branching processes was developed especially as a
mathematical counterpart to this most fundamental of biological
processes. This active and rich research area allows us to make
predictions about both extinction risks and the development of
population composition, and also uncovers aspects of a population's
history from its current genetic composition. Branching processes
play an increasingly important role in models of genetics,
molecular biology, microbiology, ecology and evolutionary theory.
This book presents this body of mathematical ideas for a biological
audience, but should also be enjoyable to mathematicians.
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