Progress in global optimization and shape design

Isebe, Damien; Ivorra, Benjamín Pierre Paul; Azerad, Pascal; Mohammadi, Bijan; Bouchette, Frederic

Progress in global optimization and shape design

dc.book.title	Modeling, Simulation and Optimization of Complex Processes: Proceedings of the Third International Conference on High Performance Scientific Computing, March 6–10, 2006, Hanoi, Vietnam
dc.contributor.author	Isebe, Damien
dc.contributor.author	Ivorra, Benjamín Pierre Paul
dc.contributor.author	Azerad, Pascal
dc.contributor.author	Mohammadi, Bijan
dc.contributor.author	Bouchette, Frederic
dc.contributor.editor	Bock, Hans Georg
dc.contributor.editor	Kostina, Ekaterina
dc.contributor.editor	Hoang, Xuan Phu
dc.contributor.editor	Rannacher, Rolf
dc.date.accessioned	2023-06-20T13:41:43Z
dc.date.available	2023-06-20T13:41:43Z
dc.date.issued	2008
dc.description.abstract	In this paper, we reformulate global optimization problems in terms of boundary value problems. This allows us to introduce a new class of optimization algorithms. Indeed, many optimization methods can be seen as discretizations of initial value problems for differential equations or systems of differential equations. We apply a particular algorithm included in the former class to the shape optimization of coastal structures
dc.description.department	Depto. de Análisis Matemático y Matemática Aplicada
dc.description.faculty	Fac. de Ciencias Matemáticas
dc.description.refereed	TRUE
dc.description.status	pub
dc.eprint.id	https://eprints.ucm.es/id/eprint/29239
dc.identifier.doi	10.1007/978-3-540-79409-7_20
dc.identifier.isbn	978-3-540-79408-0
dc.identifier.officialurl	http://link.springer.com/chapter/10.1007/978-3-540-79409-7_20#page-1
dc.identifier.relatedurl	http://link.springer.com/book/10.1007/978-3-540-79409-7
dc.identifier.uri	https://hdl.handle.net/20.500.14352/53414
dc.language.iso	eng
dc.page.final	312
dc.page.initial	303
dc.page.total	666
dc.publication.place	Berlin
dc.publisher	Springer
dc.rights.accessRights	restricted access
dc.subject.cdu	519.863
dc.subject.ucm	Investigación operativa (Matemáticas)
dc.subject.unesco	1207 Investigación Operativa
dc.title	Progress in global optimization and shape design
dc.type	book part
dcterms.references	B. Mohammadi and J-H. Saiac. Pratique de la simulation numérique. Dunod, 2002. H. Attouch and R. Cominetti. A dynamical approach to convex minimization coupling approximation with the steepest descent method. J. Differential Equations, 128(2):519–540, 1996. B. Mohammadi and O. Pironneau. Applied Shape Optimization for Fluids. Oxford University Press, 2001. A. Jameson, F. Austin, M. J. Rossi, W. Van Nostrand, and G. Knowles. Static shape control for adaptive wings. AIAA Journal, 32(9):1895–1901, 1994. F. Verhulst. Nonlinear differential equations and dynamical systems. SpringerVerlag., 1990. D. Colton and R. Kress. Inverse acoustic and electromagnetic scattering theory. Springer-Verlag, 1992. D. Isebe, P. Azerad, B. Ivorra, B. Mohammadi, and F. Bouchette. Optimal shape design of coastal structures minimizing coastal erosion. In Proceedings of workshop on inverse problems, CIRM, Marseille, 2005. J. T. Kirby and R. A. Dalrymple. A parabolic equation for the combined refraction diffraction of stokes waves by mildly varying topography. J. Fluid. Mechanics., 136:443–466, 1983. J. T. Kirby and R. A. Dalrymple. Combined refraction/diffraction model ref/dif 1, User’s manual. Coastal and Offshore Engineering and Research, Inc., Newark, DE., January, 1985. (Revised June, 1986). B. Ivorra, B. Mohammadi, D. E. Santiago, and J. G. Hertzog. Semi-deterministic and genetic algorithms for global optimization of microfluidic protein folding devices. Inte
dspace.entity.type	Publication
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