Partial Observations and Conservation Laws: Gray-Box Modeling in Biotechnology and Optogenetics

Publication Year
2020

Type

Journal Article
Abstract
Developing accurate dynamical system models from phys. insights or data can be impeded when only partial observations of the system state are available. Here, we combine conservation laws used in physics and engineering with artificial neural networks to construct "gray-box" system models that make accurate predictions even with limited information. These models use a time delay embedding (cf., Takens embedding theorem) to reconstruct the effects of the intrinsic states, and they can be used for multiscale systems where macroscopic balance equations depend on unmeasured micro/meso-scale phenomena. By incorporating physics knowledge into the neural network architecture, we regularize variables and can train the model more accurately on smaller data sets than black-box neural network models. We present numerical examples from biotechnol., including a continuous bioreactor actuated using light through optogenetics (an emerging technol. in synthetic biol.) where the effect of unmeasured intracellular information is recovered from the histories of the measured macroscopic variables.
Journal
Ind. Eng. Chem. Res.
Volume
59
Pages
2611-2620
ISBN
0888-5885

CAplus AN 2019:2219938 (Journal)