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Title:
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Reduced Basis Method for 2nd Order Wave Equation: Application to One-Dimensional Seismic Problem |
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Author:
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Tan, Alex Y.K.; Patera, Anthony T. |
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Issue Date:
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2007-01 |
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Abstract:
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We solve the 2nd order wave equation, hyperbolic and linear in nature, for the pressure distribution of one-dimensional
seismic problem with smooth initial pressure and rate of pressure change. The reduced basis method, offline-online computational procedures and a posteriori error estimation are developed. We show that the reduced basis pressure distribution is an accurate approximation to the finite element pressure
distribution and the offline-online computational procedures work well. The a posteriori error estimation developed shows
that the ratio of the maximum error bound over the maximum norm of the reduced basis error has a constant magnitude of O(10²). The inverse problem works well, giving a “possibility region” of a set of system parameters where the actual system parameters may reside. |
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URI:
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http://hdl.handle.net/1721.1/35808
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Series/Report no.:
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Computational Engineering (CE) |
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Keywords:
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Hyperbolic Equations, Inverse Problems, Parameterized Partial Differential Equations, Reduced Basis Method |
