Comparison of optimization methods for fed-batch cultures of hybridoma cells

被引:0
|
作者
J. A. Roubos
C. D. de Gooijer
G. van Straten
A. J. B. van Boxtel
机构
[1] Wageningen Agricultural University,
[2] Department of Agricultural Engineering and Physics,undefined
[3] Bomenweg 4,undefined
[4] 6703 HD Wageningen,undefined
[5] the Netherlands,undefined
来源
Bioprocess Engineering | 1997年 / 17卷
关键词
Dynamic Programming; Gradient Method; Computational Effort; Suitable Method; Programming Approach;
D O I
暂无
中图分类号
学科分类号
摘要
Two methods for the calculation of optimal trajectories for the input variables of a fed-batch culture of hybridoma cells are compared. It pointed out that a gradient method based on Pontryagins' minimum principle based yields a significant better performance with respect to computational effort and the calculated minimum than a dynamic programming approach which has been presented in a previous paper [1] as the most suitable method.
引用
收藏
页码:99 / 102
页数:3
相关论文
共 50 条
  • [21] Evaluation of selected control strategies for fed-batch cultures of a hybridoma cell line
    Pörtner, R
    Schwabe, JO
    Frahm, B
    BIOTECHNOLOGY AND APPLIED BIOCHEMISTRY, 2004, 40 : 47 - 55
  • [22] MATHEMATICAL DESCRIPTIONS OF HYBRIDOMA CULTURE KINETICS FOR THE OPTIMIZATION OF FED-BATCH BIOREACTORS
    GLACKEN, MW
    SINSKEY, AJ
    ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 1987, 194 : 146 - MBTD
  • [23] HIGH VIABLE CELL CONCENTRATION FED-BATCH CULTURES OF HYBRIDOMA CELLS THROUGH ONLINE NUTRIENT FEEDING
    ZHOU, WC
    REHM, J
    HU, WS
    BIOTECHNOLOGY AND BIOENGINEERING, 1995, 46 (06) : 579 - 587
  • [24] KINETIC STUDIES ON FED-BATCH CULTURES .6. SIMPLE OPTIMIZATION TECHNIQUE FOR FED-BATCH CULTURE
    YAMANE, T
    KUME, T
    SADA, E
    TAKAMATSU, T
    JOURNAL OF FERMENTATION TECHNOLOGY, 1977, 55 (06): : 587 - 598
  • [25] Optimisation of fed-batch culture of hybridoma cells using genetic algorithms
    Nguang, SK
    Chen, LZ
    Chen, XD
    ISA TRANSACTIONS, 2001, 40 (04) : 381 - 389
  • [26] An unstructured model of metabolic and temperature dependent cell cycle arrest in hybridoma batch and fed-batch cultures
    Muenzer, D. G. Garcia
    Ivarsson, M.
    Usaku, C.
    Habicher, T.
    Soos, M.
    Morbidelli, M.
    Pistikopoulos, E. N.
    Mantalaris, A.
    BIOCHEMICAL ENGINEERING JOURNAL, 2015, 93 : 260 - 273
  • [27] Extended and Unscented Kalman Filter design for hybridoma cell fed-batch and continuous cultures
    Fernandes, Sofia
    Richelle, Anne
    Amribt, Zakaria
    Dewasme, Laurent
    Bogaerts, Philippe
    Vande Wouwer, Alain
    IFAC PAPERSONLINE, 2015, 48 (08): : 1108 - 1113
  • [28] Simple Observer-Based Feedback Strategy for Controlling Fed-Batch Hybridoma Cultures
    Gorrini, Federico A.
    Biagiola, Silvina I.
    Figueroa, Jose L.
    Wouwer, Alain Vande
    INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2017, 56 (51) : 15072 - 15082
  • [29] COMPARISON OF CELL PRODUCTIVITIES AMONG FED-BATCH, REPEATED FED-BATCH AND CONTINUOUS CULTURES AT HIGH CELL CONCENTRATION
    MORI, H
    YAMANE, T
    KOBAYASHI, T
    SHIMIZU, S
    JOURNAL OF FERMENTATION TECHNOLOGY, 1983, 61 (04): : 391 - 401
  • [30] Effect of the macromolecular metabolism of murine hybridoma cells on antibody productivity in batch and fed-batch culture
    Jang, JD
    Barford, JP
    ANIMAL CELL TECHNOLOGY: BASIC & APPLIED ASPECTS, VOL 10, 1999, : 241 - 245
12345