A variety of numerical methods have been proposed in literature in purpose to deal with the complexity and nonlinearity of structural optimization problems. In practical design, sequential linear programming (SLP) is very popular because of its inherent simplicity and because linear solvers (e.g. Simplex) are easily available. However, SLP performance is sensitive to the definition of proper move limits for the design variables which task itself often involves considerable heuristics. This research presents a new SLP algorithm (LESLP) that implements an advanced technique for defining the move limits. The linearization error sequential linear programming (LESLP) algorithm is formulated so to overcome the traditional limitations of the SLP method. In a companion paper [Comput. Struct. 81 (2003) 1971 the basics of the LESLP formulation along with a guide to programming are provided. The new algorithm is successfully tested in weight minimisation problems of truss structures with up to hundreds of design variables and thousands of constraints: sizing and configuration problems are considered. Optimization problems of non-truss structures are also presented. The numerical efficiency, advantages and drawbacks of LESLP are discussed and compared to those of other SLP algorithms recently published or implemented in commercial software packages

Move limits definition in structural optimization with sequential linear programming. Part II: Numerical examples / Lamberti, Luciano; Pappalettere, Carmine. - In: COMPUTERS & STRUCTURES. - ISSN 0045-7949. - STAMPA. - 81:4(2003), pp. 215-238. [10.1016/S0045-7949(02)00443-1]

Move limits definition in structural optimization with sequential linear programming. Part II: Numerical examples

Luciano Lamberti;Carmine Pappalettere
2003-01-01

Abstract

A variety of numerical methods have been proposed in literature in purpose to deal with the complexity and nonlinearity of structural optimization problems. In practical design, sequential linear programming (SLP) is very popular because of its inherent simplicity and because linear solvers (e.g. Simplex) are easily available. However, SLP performance is sensitive to the definition of proper move limits for the design variables which task itself often involves considerable heuristics. This research presents a new SLP algorithm (LESLP) that implements an advanced technique for defining the move limits. The linearization error sequential linear programming (LESLP) algorithm is formulated so to overcome the traditional limitations of the SLP method. In a companion paper [Comput. Struct. 81 (2003) 1971 the basics of the LESLP formulation along with a guide to programming are provided. The new algorithm is successfully tested in weight minimisation problems of truss structures with up to hundreds of design variables and thousands of constraints: sizing and configuration problems are considered. Optimization problems of non-truss structures are also presented. The numerical efficiency, advantages and drawbacks of LESLP are discussed and compared to those of other SLP algorithms recently published or implemented in commercial software packages
2003
Move limits definition in structural optimization with sequential linear programming. Part II: Numerical examples / Lamberti, Luciano; Pappalettere, Carmine. - In: COMPUTERS & STRUCTURES. - ISSN 0045-7949. - STAMPA. - 81:4(2003), pp. 215-238. [10.1016/S0045-7949(02)00443-1]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11589/5793
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