|
Showing 1 - 2 of
2 matches in All Departments
This volume presents various aspects of non-integer order systems,
also known as fractional systems, which have recently attracted an
increasing attention in the scientific community of systems
science, applied mathematics, control theory. Non-integer systems
have become relevant for many fields of science and technology
exemplified by the modeling of signal transmission, electric noise,
dielectric polarization, heat transfer, electrochemical reactions,
thermal processes, acoustics, etc. The content is divided into six
parts, every of which considers one of the currently relevant
problems. In the first part the Realization problem is discussed,
with a special focus on positive systems. The second part considers
stability of certain classes of non-integer order systems with and
without delays. The third part is focused on such important aspects
as controllability, observability and optimization especially in
discrete time. The fourth part is focused on distributed systems
where non-integer calculus leads to new and interesting results.
The next part considers problems of solutions and approximations of
non-integer order equations and systems. The final and most
extensive part is devoted to applications. Problems from
mechatronics, biomedical engineering, robotics and others are all
analyzed and solved with tools from fractional systems. This volume
came to fruition thanks to high level of talks and interesting
discussions at RRNR 2013 - 5th Conference on Non-integer Order
Calculus and its Applications that took place at AGH University of
Science and Technology in Krakow, Poland, which was organized by
the Faculty of Electrical Engineering, Automatics, Computer Science
and Biomedical Engineering.
This volume presents various aspects of non-integer order systems,
also known as fractional systems, which have recently attracted an
increasing attention in the scientific community of systems
science, applied mathematics, control theory. Non-integer systems
have become relevant for many fields of science and technology
exemplified by the modeling of signal transmission, electric noise,
dielectric polarization, heat transfer, electrochemical reactions,
thermal processes, acoustics, etc. The content is divided into six
parts, every of which considers one of the currently relevant
problems. In the first part the Realization problem is discussed,
with a special focus on positive systems. The second part considers
stability of certain classes of non-integer order systems with and
without delays. The third part is focused on such important aspects
as controllability, observability and optimization especially in
discrete time. The fourth part is focused on distributed systems
where non-integer calculus leads to new and interesting results.
The next part considers problems of solutions and approximations of
non-integer order equations and systems. The final and most
extensive part is devoted to applications. Problems from
mechatronics, biomedical engineering, robotics and others are all
analyzed and solved with tools from fractional systems. This volume
came to fruition thanks to high level of talks and interesting
discussions at RRNR 2013 - 5th Conference on Non-integer Order
Calculus and its Applications that took place at AGH University of
Science and Technology in Krakow, Poland, which was organized by
the Faculty of Electrical Engineering, Automatics, Computer Science
and Biomedical Engineering.
|
You may like...
Hampstead
Diane Keaton, Brendan Gleeson, …
DVD
R66
Discovery Miles 660
|