Complementary Extremum Principles for Isoperimetric Optimization Problems

Springer Science and Business Media LLC - Tập 5 - Trang 417-430 - 2004
John P. Curtis1
1Room 5, Building Q13, QinetiQ, Fort Halstead, Sevenoaks, Kent. TN14 7BP

Tóm tắt

Isoperimetric problems are of importance in engineering applications, where it is often desirable to maximize or minimize some physical variable by shape variation, subject to geometrical constraints, such as keeping an area or volume constant. The calculus of variations can offer a powerful tool for the solution of such problems where there is a governing variational minimum or maximum principle, e.g. Helmholtz's principle in slow viscous flow. In these problems the well-known Euler equations derived by the calculus of variations are supplemented with additional boundary conditions arising from the shape variation, as well as the usual physical boundary conditions. The exact solution of such unknown boundary problems can be difficult to find. A good approach then is to apply a complementary extremum principle that offers an algorithm for determining bounds on the exact extremal value of the original functional. This paper shows how this may be done in the case of the fundamental problem of the calculus of variations with variable endpoints. We apply this approach to a simple engineering problem of a stretched spring.

Tài liệu tham khảo

N. V. Banichuk, “Optimization of elastic bars in torsion”, Int. J. Solids and Structures vol. 12, pp. 275–286, 1976.

N. V. Banichuk and B. L. Karihaloo, “Minimum weight design of multi-purpose cylindrical bars,” Int. J. Solids and Structures”vol. 12, pp. 267–273, 1976.

O. Bolza, Lectures on the Calculus of Variations,Dover Publications Inc.: New York, 1961.

J. M. Bourot, “On the numerical computation of the optimum profile in Stokes flow,” J. of Fluid Mech.vol. 65, pp. 513–515, 1974.

Courant and Hilbert, Methods of Mathematical Physics, Interscience: New York, 1953.

J. P. Curtis, “Optimization of Homogenous Thermal Insulation Layers,” Int. J. Solids and Structures,vol. 19, no. 9, pp. 813–823, 1983.

J. P. Curtis, “Complementary Extremum Principles For Isoperimetric Optimisation Problems,” in Advances in Simulation, Systems Theory and Systems Engineering, N.E. Mastorakis, V. Kluev, and D. Koruga (Eds.), Electrical and Computer Engineering Series, WSEAS Press, 2002, pp. 416–422, ISBN 960-8052-70-X.

J. P. Curtis and L. J. Walpole, “Optimization of the torsional rigidity of axisymmetric hollow shafts,” Int. J. Solids and Structures,vol. 18, no. 10, pp. 883–887, 1982.

R. Glowinski and O. Pironneau, “On the numerical computation of the minimum drag profile in laminar flow,” J. of Fluid Mech.vol. 72, pp. 385–389, 1975.

E. L. Gurvitch, “On isoperimetric problems for domains with partly known boundaries,” J. of Optimization Theory and Application vol. 20, pp. 65–72, 1976.

S. Hildebrandt and A Tromba, The Parsimonious Universe: Shape and Form in the Natural World, Springer-Verlag: New York Copernicus, 1996. ISBN 0-387-97991-3.

A. A. Mironov, “On the problem of optimization of the shape of a body in a viscous fluid,” J. of Appl. Maths. and Mech.vol. 39, pp. 103–108, 1975.

R. D. Parberry and B. L. Karihaloo, “Minimum weight design of a hollow cylinder for given lower bounds on torsional and flexural rigidities,” Int. J. Solids and Structures vol. 13, pp. 1271–1280, 1977.

L. E. Payne, “Isoperimetric irregularities and their application,” S.I.A.M Review vol. 9, no. 3, pp. 453–488, 1967.

O. Pironneau, “On optimum profiles in Stokes flow,” J. of Fluid Mech.vol. 59, pp. 117–128, 1973.

O. Pironneau, “On optimal design in fluid mechanics,” J. of Fluid Mech.vol. 64, pp. 97–110, 1974.

G. Polya, “Torsional rigidity, principal frequency, electrostatic capacity and symmetrization,” Quart. of Appl. Maths.vol. 6, pp. 267–277, 1948.

S. Richardson, “Optimum profiles in two-dimensional Stokes flow,” Proc. Roy. Soc., Series A vol. 450, pp. 603–622, 1995.

E. O. Tuck, Proceedings of the Conference on Hydraulic Fluid Mechanics, Australian Institute of Engineers, 1968, pp. 29–32.

S. R. Watson, “Towards minimum drag on a body of given volume in slow viscous flow,” J. of The Inst. of Maths. and its Applics vol. 7, pp. 367–376, 1971.

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Springer Science and Business Media LLC

Tập 5

417-430

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