Shape optimization approach for solving the Bernoulli problem by tracking the Neumann data: A Lagrangian formulation | Zendy

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Shape optimization approach for solving the Bernoulli problem by tracking the Neumann data: A Lagrangian formulation

Author(s) -

Julius Fergy T. Rabago,

Jerico B. Bacani

Publication year - 2018

Publication title -

communications on pure and applied analysis

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.077

H-Index - 42

eISSN - 1553-5258

pISSN - 1534-0392

DOI - 10.3934/cpaa.2018127

Subject(s) - bernoulli's principle , shape optimization , differentiable function , material derivative , neumann boundary condition , boundary (topology) , directional derivative , mathematics , optimization problem , augmented lagrangian method , constrained optimization problem , derivative (finance) , mathematical optimization , boundary value problem , mathematical analysis , physics , finite element method , financial economics , economics , thermodynamics

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