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Vibration problems are commonly encountered in a wide range of scientific and technological domains, such as physics, applied mathematics and engineering. In these areas, powerful methods of numerical, semi-analytical and soft computing/machine intelligence are being used to solve problems.
These edited reference texts bring together leading researchers in the field of vibrations, focusing on those who use and develop computational and analytical techniques to solve problems easily and efficiently. Covering the most recent computational and theoretical trends in the field, the books provide a state-of-the-art treatment of different mathematical theories of vibration, numerical simulations, machine intelligence techniques and physical experiments with computational investigations, as well as their various engineering, biological and science applications.
The second of two volumes, this book covers soft computing, including machine intelligence techniques and uncertainty scenarios. It is an invaluable guide for graduate and postgraduate students, teachers and researchers in colleges, universities and industries in fields such as applied mathematics, physics, mechanical, civil, aerospace, electrical, nuclear, robotics, and other sciences. It will also benefit academics, practitioners and consultants in the areas of science and engineering related to vibration problems.
These edited reference texts bring together leading researchers in the field of vibrations, focusing on those who use and develop computational and analytical techniques to solve problems easily and efficiently. Covering the most recent computational and theoretical trends in the field, the books provide a state-of-the-art treatment of different mathematical theories of vibration, numerical simulations, machine intelligence techniques and physical experiments with computational investigations, as well as their various engineering, biological and science applications.
The second of two volumes, this book covers soft computing, including machine intelligence techniques and uncertainty scenarios. It is an invaluable guide for graduate and postgraduate students, teachers and researchers in colleges, universities and industries in fields such as applied mathematics, physics, mechanical, civil, aerospace, electrical, nuclear, robotics, and other sciences. It will also benefit academics, practitioners and consultants in the areas of science and engineering related to vibration problems.
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