Evolution of Optimal Accuracy and Stability in Biological Systems

This paper analyses the accuracy and numerical stability of coupling procedures in aeroelastic modelling. A twodimensional model problem assuming unsteady inviscid flow past an oscillating wall leads to an even simpler one-dimensional model problem. Analysis of different numerical algorithms shows t

## Abstract The hydrolysis of diltiazem in biological fluids: whole blood, plasma, and gastric fluid was investigated under conditions considered close to the physiological situation. The most significant rate of hydrolytic degradation was found in whole blood (half‐life of 27h), followed by plasma

ating parameters e.g. flow rate and current density is of minor significance on the results. The process developed appears to be promising for the treatment of concentrated wastes with suspended matter e.g. oil suspensions.

Hormones and the nervous system are the key coordinators of physiological processes and the synchronization of internal life processes with the external environment. Endocrine tissues secrete more than 40 different hormones in mammals that regulate processes such as reproduction, osmoregulation, int

This papers addresses the problem of globally minimizing the worst-case response to persistent l bounded disturbances in linear systems with bounded control action. The main result of the paper shows that in the state-feedback case the best performance among all stabilizing controllers (possibly dis