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Identification of systems with localised nonlinearity: From state-space to block-structured models Van Mulders A, Schoukens J, Vanbeylen L Automatica, 49(5), 1392, 2013 |
2 |
Identification of IIR Wiener systems with spline nonlinearities that have variable knots Hughes MC, Westwick DT IEEE Transactions on Automatic Control, 50(10), 1617, 2005 |
3 |
Morphologically structured model for, antitumoral retamycin production during batch and fed-batch cultivations of Streptomyces olindensis Giudici R, Pamboukian CRD, Facciotti MCR Biotechnology and Bioengineering, 86(4), 414, 2004 |
4 |
A morphologically structured model for penicillin production Birol G, Undey C, Parulekar SJ, Cinar A Biotechnology and Bioengineering, 77(5), 538, 2002 |
5 |
Cellular growth in biofilms Wood BD, Whitaker S Biotechnology and Bioengineering, 64(6), 656, 1999 |
6 |
Kinetics and Modeling of GM-CSF Production by Recombinant Yeast in 3-Phase Fluidized-Bed Bioreactor Huang YL, Shu CH, Yang ST Biotechnology and Bioengineering, 53(5), 470, 1997 |
7 |
Mathematical-Model of the Lac Operon - Inducer Exclusion, Catabolite Repression, and Diauxic Growth on Glucose and Lactose Wong P, Gladney S, Keasling JD Biotechnology Progress, 13(2), 132, 1997 |
8 |
Dynamics and Modeling of Temperature-Regulated Gene-Product Expression in Recombinant Yeast Fermentation Cheng CY, Yang ST Biotechnology and Bioengineering, 50(6), 663, 1996 |
9 |
Artificial Neural-Network-Based Experimental-Design Procedures for Enhancing Fermentation Development Glassey J, Montague GA, Ward AC, Kara BV Biotechnology and Bioengineering, 44(4), 397, 1994 |
10 |
Enhanced Supervision of Recombinant Escherichia-Coli Fermentations via Artificial Neural Networks Glassey J, Montague GA, Ward AC, Kara BV Process Biochemistry, 29(5), 387, 1994 |