ISSN:
1573-2878
Source:
Springer Online Journal Archives 1860-2000
Topics:
Mathematics
Notes:
Abstract The problem of minimizing a functionf(x) subject to the constraint ϕ(x)=0 is considered. Here,f is a scalar,x ann-vector, and ϕ aq-vector. Asequential algorithm is presented, composed of the alternate succession of gradient phases and restoration phases. In thegradient phase, a nominal pointx satisfying the constraint is assumed; a displacement Δx leading from pointx to a varied pointy is determined such that the value of the function is reduced. The determination of the displacement Δx incorporates information at only pointx for theordinary gradient version of the method (Part 1) and information at both pointsx and $$\hat x$$ for theconjugate gradient version of the method (Part 2). In therestoration phase, a nominal pointy not satisfying the constraint is assumed; a displacement Δy leading from pointy to a varied point $$\tilde x$$ is determined such that the constraint is restored to a prescribed degree of accuracy. The restoration is done by requiring the least-square change of the coordinates. If the stepsize α of the gradient phase is ofO(ε), then Δx=O(ε) and Δy=O(ε2). For ε sufficiently small, the restoration phase preserves the descent property of the gradient phase: the functionf decreases between any two successive restoration phases.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00927947
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