Title :
Dynamic re-optimization of a fed-batch fermentor using adaptive critic designs
Author :
Iyer, Mahesh S. ; Wunsch, Donald C., II
Author_Institution :
Dresser-Rand Control Systems, Houston, TX, USA
fDate :
11/1/2001 12:00:00 AM
Abstract :
Traditionally, fed-batch biochemical process optimization and control uses complicated off-line optimizers, with no online model adaptation or re-optimization. This study demonstrates the applicability of a class of adaptive critic designs for online re-optimization and control of an aerobic fed-batch fermentor. Specifically, the performance of an entire class of adaptive critic designs, viz., heuristic dynamic programming, dual heuristic programming and generalized dual heuristic programming, was demonstrated to be superior to that of a heuristic random optimizer, on optimization of a fed-batch fermentor operation producing monoclonal antibodies
Keywords :
batch processing (industrial); dynamic programming; feedforward neural nets; fermentation; process control; adaptive critic designs; biochemical process; dual heuristic programming; fed-batch fermentor; feedforward neural nets; fermentation; heuristic dynamic programming; monoclonal antibodies; process control; random optimizer; Adaptive control; Aerodynamics; Amino acids; Design optimization; Dynamic programming; Feeds; Inductors; Inhibitors; Programmable control; Sugar;
Journal_Title :
Neural Networks, IEEE Transactions on
