Optimal situation control for a biosynthetic process on the basis of a prediction filter

## Abstract A simple algorithm for the time‐optimal control of chemical processes during setpoint changes, in processes which can be described by a second‐order lag plus dead time model, is described. Knowledge of the unsteady state model parameters is not required because the algorithm uses a dime

The rise of the 'cheaper, faster, better' mission paradigm increasingly challenges the industrial development of satellite systems. The novel paradigm will have a profound impact on the production of the real-time software embedded on board new-generation systems. This paper contends that a large pr

## Abstract A counterexample is given to the strong maximum principle for boundary control of a class of distributed parameter systems. The particular system deals with chemical reactors suffering catalyst decay and is in the class whose members are described by sets of first‐order partial differen

Viscoelastic behavior at elevated temperatures of high-density polyethylene and isotactic polypropylene was investigated by using the stress relaxation method. The results are interpreted from the view of an established two-process model for stress relaxation in semicrystalline polymers. This model

## Abstract We developed a model (depending on peripheral CD34^+^ cell count and hematopoietic progenitor cell count) to determine the optimal timing of 3‐day leukapheresis in patients pretreated with chemotherapy and G‐CSF. Marrow potentials were identified on the basis of three patterns of leukap