Posted by **Underaglassmoon** at Nov. 29, 2015

Springer | Mathematics | December 26, 2015 | ISBN-10: 3319252879 | 120 pages | pdf | 1.7 mb

by Antonio Cañada (Author), Salvador Villegas (Author)

Contains applications to nonlinear resonant problems and stability theory

Provides detailed proofs

Posted by **tukotikko** at June 18, 2015

2007 | 528 Pages | ISBN: 0521832586 | PDF | 19 MB

Posted by **denisbul** at Dec. 3, 2010

by Pushkin Kachroo, Sadeq J. Al-nasur, Sabiha Amin Wadoo

Springer | 2008 | ISBN: 3540755594 | Pages: 246 | PDF | Size: 11,1 MB

This book provides mathematical models of pedestrian movements that can be used specifically for designing feedback control laws for effective evacuation. The book also provides various feedback control laws to accomplish the effective evacuation. The book uses the hydrodynamic hyperbolic PDE macroscopic pedestrian models since they are amenable to feedback control design. The control designs are obtained through different nonlinear techniques including Lyapunov functional techniques, feedback linearization in the distributed model, and some discretized techniques.

Posted by **roxul** at Dec. 10, 2016

English | ISBN: 1138028851 | 2016 | 1646 pages | PDF | 686 MB

Posted by **arundhati** at Dec. 10, 2016

2016 | ISBN-10: 113802953X | 568 pages | PDF | 243 MB

Posted by **hill0** at Dec. 9, 2016

English | 21 Dec. 2016 | ISBN: 4431564551 | 636 Pages | PDF | 15.25 MB

This volume presents original papers ranging from an experimental study on cavitation jets to an up-to-date mathematical analysis of the Navier-Stokes equations for free boundary problems, reflecting topics featured at the International Conference on Mathematical Fluid Dynamics, Present and Future, held 11–14 November 2014 at Waseda University in Tokyo.

Posted by **arundhati** at Dec. 8, 2016

2016 | ISBN-10: 1482244667 | 367 pages | EPUB | 31 MB

Posted by **interes** at Dec. 8, 2016

English | 2016 | ISBN: 149872261X | 298 pages | EPUB | 10 MB

Posted by **rotten comics** at Dec. 7, 2016

2005 | ISBN: 3540240640 | English | 188 pages | PDF | 2.2 MB

Posted by **hill0** at Dec. 7, 2016

English | 16 Dec. 2016 | ISBN: 3319446053 | 360 Pages | PDF | 17.23 MB

This undergraduate text explores a variety of large-scale phenomena - global warming, ice ages, water, poverty - and uses these case studies as a motivation to explore nonlinear dynamics, power-law statistics, and complex systems. Although the detailed mathematical descriptions of these topics can be challenging, the consequences of a system being nonlinear, power-law, or complex are in fact quite accessible.