Direct computer mapping of executable multiscale hybrid process architectures

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Abstract

The Direct Computer Mapping based generation of executable multiscale hybrid process architectures is described in the paper. We show that process models can be generated from a given set of building and connecting elements, while the building elements are associated with local programs, declared in the prototype elements. The executable multiscale process architectures are described in a logical programming language. The case specific knowledge is contained in the expert and user programs that can be defined and modified via the expert and user interfaces. These dynamic partitions can be executed by the same, invariant kernel. The simulation based identification or optimization problems can be solved by the evaluation feedback(s) between the configurable, robust simulator and a multi-objective, discrete/continuous genetic algorithm. The executable architecture can be used for simulation, identification, process design and control, flux and sensitivity analysis, as well as for qualitative and quantitative tracing and tracking. The application is illustrated by two, extremely different models, prepared for a significant part of the p53 related signaling pathways, and for an agrifood process network interoperability system.