Response surface approximations for structural optimization

Response surface methodology is used to construct approximations to temperature and stress in transient thermoelastic analysis of non-linear systems. The analysis forms the core component of a heating=cooling rate maximization problem in which the ordinates of the ambient temperature at equally spac

## Abstract Typically in the analysis of industrial data for product/process optimization, there are many response variables that are under investigation at the same time. Robustness is also an important concept in industrial optimization. Here, robustness means that the responses are not sensitive

Function approximation is one of the most important "elds of research in design optimization. Accurate function approximation reduces the repetitive cost of "nite element analysis. Many local approximations, such as one-and two-point local approximations, are already available. These are, however, o

## Abstract Within the realm of average mean squared error (AMSE), generalized estimation (GE; Kupper and Meydrech 1,2) is an attractive alternative to estimate the response surface. GE is based on the criterion that minimizes the variance of the fitted response $(\hat Y({\bf x}))$ by weighting the

## Abstract Most of the available response‐adaptive designs in phase III clinical trial set up are not from any optimal consideration. An optimal design for binary responses is given by Rosenberger et al. (2001) and an optimal design for continuous responses is provided by Biswas and Mandal (2004).