The overall objective is to develop novel
programming methodologies for IT coprocessors to chemical cells. This involves simulation and modeling at a variety of physical and chemical levels, the development of real time electronic control algorithms and the specification of an evolvable system description making use of a generic real time modeling language (UML-RT) specially adapted for the purpose.
The objectives of the work are thus:
- Development of simulation tools for electronic chemical cell dynamics in microfluidic systems
- Integration of simulation tools describing physical and chemical cell response to electronic signals
- Development and application of an electronic genome architecture attaching specific electrode feedback control programs to each electronic chemical cell
- Formulation and utilization of a real time UML description of hybrid electronic chemical cell processing
- Development of evolutionary optimization and feedback algorithms for ECCells
