1 edition of Numerical Methods for Wave Propagation found in the catalog.
This book is an attempt to bring together various and diverse scientific areas of research that have the common theme of wave propagation phenomena. There are few branches of Science and Engineering in which wave propagation phenomena do not have a part to play. Example areas of basic research and technological applications are shock waves in compressible media, stress waves in solid materials, astrophysical flows, electromagnetic waves, magneto gas dynamics, geophysical phenomena, hydraulics, combustion-driven waves and many others. There are fourteen contributions from distinguished researchers from eight countries. The emphasis is on modern numerical methods for waves. The Harten Memorial Lecture presented by P.L. Roe, University of Michigan, USA, deals with state-of-the-art numerical methods with novel applications. The book is suitable for scientists and engineers in all areas involving wave propagation. The level is advanced and suitable for post-graduate students and researchers in academia and industry.
|Other titles||Selected Contributions from the Workshop held in Manchester, UK, containing the Harten Memorial Lecture|
|Statement||edited by Eleuterio F. Toro, John F. Clarke|
|Series||Fluid Mechanics and Its Applications -- 47, Fluid Mechanics and Its Applications -- 47|
|Contributions||Clarke, John F.|
|The Physical Object|
|Format||[electronic resource] :|
|Pagination||1 online resource (ix, 390 p.)|
|Number of Pages||390|
|ISBN 10||9048150477, 9401591377|
|ISBN 10||9789048150472, 9789401591379|
Analytical and numerical methods for wave propagation in fluid media Then, with this minimal input, the book shows that one can obtain lattice solutions, soliton systems, closed strings, instantons and chaotic-looking systems as well as multi-wave-packet solutions as output. These solutions have the common feature of being nonintegrable, ie. The first part introduces an extensive online library of MATLAB® seismic data processing codes maintained by the CREWES project at the University of Calgary. Later chapters then focus on digital signal theory and relevant aspects of wave propagation and seismic modelling, followed by deconvolution and seismic migration by:
This book is the first to present the application of parabolic equation methods in electromagnetic wave propagation. These powerful numerical techniques have become the dominant tool for assessing clear-air and terrain effects on radiowave propagation and are growing increasingly popular for solving scattering problems. The book gives the mathematical background to parabolic equation modelling Cited by: propagation algorithms of  to the case of a spatially varying ﬂux function. These are ﬁnite-volume methods in which a cell average Qn i ≈ 1 ∆x x i+1/2 xi−1/2 () q(x,tn)dx is updated in each time step. This is done using the wave structure determined by solving Riemann problems at cell edges. They are higher-order Godunov methods in.
The multi-term time fractional derivatives are defined in the Caputo sense, whose orders belong to the intervals [0,1], [1,2), [0,2), [0,3), [2,3) and [2,4), respectively. Some computationally effective numerical methods are proposed for simulating the multi-term time-fractional wave-diffusion by: This book introduces a comprehensive mathematical formulation of the three-dimensional ocean acoustic propagation problem by means of functional and operator splitting techniques in conjunction with rational function approximations. It presents various numerical solutions of .
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Numerical Simulation of Optical Wave Propagation is solely dedicated to wave-optics simulations. The book discusses digital Fourier transforms (FT), FT-based operations, multiple methods of wave-optics simulations, sampling requirements, and simulations in atmospheric turbulence.
This book will benefit optical scientists and engineers at all. Effective Computational Methods for Wave Propagation (Numerical Insights Book 5) - Kindle edition by Kampanis, Nikolaos A., Dougalis, Vassilios, Ekaterinaris, John A.
Download it once and read it on your Kindle device, PC, phones or tablets. Use features like bookmarks, note taking and highlighting while reading Effective Computational Methods for Wave Propagation (Numerical Insights Book 5).Manufacturer: Chapman and Hall/CRC. Numerical Simulation of Optical Wave Propagation is solely dedicated to wave-optics simulations.
The book discusses digital Fourier transforms (FT), FT-based operations, multiple methods of wave-optics simulations, sampling requirements, and simulations in atmospheric by: Numerical methods that have useful applications to ocean acoustic wave propagation problems did not receive much attention or interest until numerical ordinary differential equation methods and finite difference schemes were introduced for solving these problems.
Solving efficiently the wave equations involved in modeling acoustic, elastic or electromagnetic wave propagation remains a challenge both for research and industry. To attack the problems coming from the propagative character of the solution, the author constructs higher-order numerical methods to.
The Workshop, which was attended by 60 scientists from 13 countries, was preceded by a short course enti tled High-Resolution Numerical Methods for Wave Propagation Phenom ena. The course participants could then join the Workshop and listen to discussions of the latest work in the field led by experts responsible for such developments.
Part of the Texts in Applied Mathematics book series (TAM, volume 52) () Numerical Wave Propagation. In: Holmes M.H. (eds) Introduction to Numerical Methods in Differential Equations.
Texts in Applied Mathematics, vol Springer, New York, NY. In May a meeting took place at the Manchester Metropolitan Uni versity, UK, with the title International Workshop on Numerical Methods for Wave Propagation Phenomena.
The Workshop, which was attended by 60 scientists from 13 countries, was preceded by. Analytical and numerical solutions to hyperbolic systems of wave equations are the primary focus of the book. In addition, many interesting wave phenomena in fluids are considered using examples such as acoustic waves, the emission of air pollutants, magnetohydrodynamic waves in the solar corona, solar wind interaction with the planet venus.
This monograph presents cutting-edge research on dispersive wave modelling, and the numerical methods used to simulate the propagation and generation of long surface water waves. Numerical Methods for Wave Propagation by E.F. Toro,available at Book Depository with free delivery worldwide.
The book then offers a comprehensive introduction to modern numerical methods for time-dependent elastic wave propagation.
The final part supplies an overview of high-order, low diffusion numerical methods for complex, compressible flows of aerodynamics. This book contains a review of the main direct numerical methods for solving the equation of motion in the time and space domains.
Wave Fields in Real Media: Wave Propagation in a plane-wave analysis is performed in order to understand the physics of wave propagation.
This book contains a review of the main direct numerical methods for. Many methods have been proposed for studying the dispersive properties of various numerical schemes (e.g., finite difference method (FDM), FEM, and SEM) for many problems, such as wave propagation.
Get this from a library. Analytical and numerical methods for wave propagation in fluid media. [Krzysztof Murawski] -- This book surveys analytical and numerical techniques appropriate to the description of fluid motion with an emphasis on the most widely used techniques exhibiting the.
In the course of the rapid advancement of diagnostic methods utilising elastic wave propagation, it has become clear that existing methods of elastic wave modeling and analysis are not always very useful; developing numerical methods aimed at modeling and analysing these phenomena has become a.
This book presents the physical principles of wave propagation in fluid mechanics and hydraulics. The mathematical techniques that allow the behavior of the waves to be analyzed are presented, along with existing numerical methods for the simulation of wave propagation.
Get this from a library. Analytical and numerical methods for wave propagation in fluid media. [Krzysztof Murawski]. Numerical-Scheme Study Jean-Michel TANGUY. Reminder of the notion of the numerical scheme Time discretization Space discretization Scheme study: notions of consistency, stability and convergence Bibliography Chapter Resolution Methods Marie-Madeleine MAUBOURGUET.
Temporal Author: Jean-Michel Tanguy. A wide variety of problems are associated with the flow of shallow water, such as atmospheric flows, tides, storm surges, river and coastal flows, lake flows, tsunamis. Numerical simulation is an effective tool in solving them and a great variety of numerical methods are available.
The first part of the book summarizes the basic physics of shallow-water flow needed to use numerical methods. Developing and using numerical methods helps students to learn the theory of wave propagation in a concrete, visual, and hands-on way. This book fills the missing space of current textbooks that either lack depth on key topics or treat the topic at a level that is too advanced for undergraduates or first-year graduate students.An important contribution to the literature that introduces powerful new methods for modeling and simulating radio wave propagation A thorough understanding of electromagnetic wave propagation is fundamental to the development of sophisticated communication and detection technologies.
The powerful numerical methods described in this book represent a major step forward in our ability to.Methods in Electromagnetic Wave Propagation Book Abstract: Co-published with Oxford University Press.
This new edition takes account of the most recent analytical progress that has been made in the field of electromagnetic wave propagation and the impact of the wider availability of powerful computers.