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| - | = Advanced Boundary Element Methods for Wave Propagation =
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| - | == Lecture 1: introduction ==
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| - | === Lecture overview ===
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| - | * Useful references
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| - | *#Jean-Claude Nédélec, « [http://books.google.fr/books?id=NABGVMOHBqEC&printsec=frontcover&dq=Acoustic+and+Electromagnetic+Equations,+Integral+Representations+for+Harmonic+Problems&source=bl&ots=rhePtnlHUl&sig=rXUBozN7kFiqliSana81RkMhzPI&hl=fr&ei=k1w5TYWVEIat8QO-u9WuCA&sa=X&oi=book_result&ct=result&resnum=2&ved=0CCUQ6AEwAQ#v=onepage&q&f=false Acoustic and Electromagnetic Equations, Integral Representations for Harmonic Problems] », Applied Mathematical Sciences 144, Springer.
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| - | *# Isabelle Terrasse & Toufic Abboud, « [http://catalogue.polytechnique.fr/site.php?id=123 Modélisation des phénomènes de propagation d’ondes] », cours de l’école polytechnique.
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| - | * Presentation of the course
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| - | ** Introduction to the mathematical analysis of the diffraction problem
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| - | ** Integral representation theorem
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| - | ** Integral equations in the frequency domain
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| - | ** Boundary Element Method in the Frequency Domain (FD BEM)
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| - | ** Fast Multipole Method
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| - | ** Integral equations in the time domain - Time domain BEM
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| - | ** Current research and future trends
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| - | * Modeling
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| - | ** acoustics
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| - | ** electromagnetics
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| - | ** elastodynamics
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| - | * Important issues
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| - | * Examples of applications in automotive and aeronautic industries
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Version du 16 janvier 2012 à 05:11
Thanks for writing such an easy-to-understand artcile on this topic.
