Nonlinear Wave Equations: Analytic And Computational Techniques: Ams Special Session Nonlinear Waves And Integrable Systems April 13-14, 2013 ... Boulder, C (contemporary Mathematics)
by Barbara Prinari /
2015 / English / PDF
11.8 MB Download
This volume contains the proceedings of the AMS Special Session on
Nonlinear Waves and Integrable Systems, held on April 13-14, 2013,
at the University of Colorado, Boulder, Colorado. The field of
nonlinear waves is an exciting area of modern mathematical research
that also plays a major role in many application areas from physics
and fluids. The articles in this volume present a diverse cross
section of topics from this field including work on the Inverse
Scattering Transform, scattering theory, inverse problems,
numerical methods for dispersive wave equations, and analytic and
computational methods for free boundary problems. Significant
attention to applications is also given throughout the articles
with an extensive presentation on new results in the free surface
problem in fluids. This volume will be useful to students and
researchers interested in learning current techniques in studying
nonlinear dispersive systems from both the integrable systems and
computational points of view.
This volume contains the proceedings of the AMS Special Session on
Nonlinear Waves and Integrable Systems, held on April 13-14, 2013,
at the University of Colorado, Boulder, Colorado. The field of
nonlinear waves is an exciting area of modern mathematical research
that also plays a major role in many application areas from physics
and fluids. The articles in this volume present a diverse cross
section of topics from this field including work on the Inverse
Scattering Transform, scattering theory, inverse problems,
numerical methods for dispersive wave equations, and analytic and
computational methods for free boundary problems. Significant
attention to applications is also given throughout the articles
with an extensive presentation on new results in the free surface
problem in fluids. This volume will be useful to students and
researchers interested in learning current techniques in studying
nonlinear dispersive systems from both the integrable systems and
computational points of view.