Dimensional and form accuracy of a workpiece are influenced by the fixture
layout selected for the machining operation. Hence, optimization of fixture
layout is a critical aspect of machining fixture design. This paper presen
ts a fixture layout optimization technique that uses the genetic algorithm
(GA) to find the fixture layout that minimizes the deformation of the machi
ned surface due to clamping and machining forces over the entire tool path,
The advantages of the GA-based method over previously reported nonlinear p
rogramming methods for fixture layout optimization are discussed. Two GA-ba
sed fixture layout optimization approaches are implemented and compared by
applying them to several two-dimensional example problems. (C) 1999 Elsevie
r Science Ltd. All rights reserved.