论文信息 - A study of mathematical programmingmethods for structural optimization. Part II: Numerical results

A study of mathematical programmingmethods for structural optimization. Part II: Numerical results

Various mathematical programming methods for structural optimization are studied. In a companion paper, these methods have been studied based on certain theoretical considerations. In this paper, the methods are studied based on solving a set of test problems. The methods that are studied include recursive QP, feasible directions, gradient projection, SUMT and multiplier methods. Various computer codes have been developed, and are studied together with some existing programs such as CONMIN and OPTDYN. The test problems considered have 3–47 design variables and 3–252 constraints. The evaluation criteria consist of studying the accuracy, reliability and efficiency of a code. It turns out that globally convergent algorithms (multiplier methods, in particular) are very reliable but not efficient. Primal algorithms (like CONMIN), which are not proved to be globally convergent, are efficient but not reliable.

J. Arora | A. Belegundu

[1] G. Vanderplaats,et al. Structural optimization by methods of feasible directions. , 1973 .

[2] R. Fletcher. An Ideal Penalty Function for Constrained Optimization , 1975 .

[3] W. Carpenter,et al. Computational efficiency of non‐linear programming methods on a class of structural problems , 1977 .

[4] B. N. Pshenichnyi,et al. Numerical Methods in Extremal Problems. , 1978 .

[5] Edward J. Haug,et al. Applied optimal design: Mechanical and structural systems , 1979 .

[6] E. Sandgren,et al. The Utility of Nonlinear Programming Algorithms: A Comparative Study—Part II , 1980 .

[7] Jasbir S. Arora,et al. An Algorithm for Optimum Structural Design without Line Search , 1981 .

[8] Ashok Dhondu Belegundu,et al. A Study of Mathematical Programming Methods for Structural Optimization , 1985 .