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On the use of the continuous adjoint method to compute nongeometric sensitivities

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Summary This work explores an alternative approach to computing sensitivity derivatives of functionals, with respect to a broader range of control parameters. It builds upon the complementary character of the… Click to show full abstract

Summary This work explores an alternative approach to computing sensitivity derivatives of functionals, with respect to a broader range of control parameters. It builds upon the complementary character of the Riemann problems that describe the Euler flow and adjoint solutions. In a previous work, we have discussed a treatment of the adjoint boundary problem, which made use of such complementarity as a means to ensure well–posedness. Here, we show that the very same adjoint solution that satisfies those boundary conditions, also conveys information on other types of sensitivities. In essence, then, that formulation of the boundary problem can extend the range of applications of the adjoint method to a host of new possibilities. This article is protected by copyright. All rights reserved.

Keywords: continuous adjoint; adjoint; method compute; use continuous; adjoint method

Journal Title: International Journal for Numerical Methods in Fluids
Year Published: 2018

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