Limitations of parallel global optimization for large-scale human movement problems

A hierarchical, time decomposition and coordination scheme for long horizon optimal control problems is suitable for parallel processing and adds a new dimension to results on large-scale dynamic optimization.

This paper presents two parallel asynchronous algorithms for the solution of the optimal control problem of linear large-scale dynamic systems. These algorithms are based on the prediction concept. The first one adopts the interaction prediction approach and the second is based upon the costate pred

## Abstract In this article, the parallel restarted generalized minimum residual [GMRES(m)] scheme has been implemented to solve large scale multilevel block Toeplitz matrix equations. The parallel fast Fourier transform has been used to accelerate the matrix‐vector multiplications in the iterative

Allometrically scaled data sets (138 compounds) used for predicting human clearance were obtained from the literature. Our analyses of these data have led to four observations. (1) The current data do not provide strong evidence that systemic clearance (CL(s); n = 102) is more predictable than appar

We investigated the optimal culture conditions (i.e.. activation procedure, medium composition and type of culture vessel) for rapid in vitro expansion of large numbers (>5 X I 09) of blood T lymphocytes. These expanded lymphocytes can be targeted to be cytotoxic to ovarian carcinoma cells with a bi