Part and Machine Partitioning Problem in Cellular Manufacturing: Multiple Machine Environment
S. Sofianopoulou (1996)
The Yugoslav Journal of Operations Research
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Displaying similar documents to “Reconfigurable Dynamic Cellular Manufacturing System: A New Bi-Objective Mathematical Model”
Part and Machine Partitioning Problem in Cellular Manufacturing: Multiple Machine Environment
Note on a comparative evaluation of nine well-known algorithms for solving the cell formation problem in group technology.
Joglekar, Prafulla, Chung, Q. B., Tavana, Madjid (2001)
Journal of Applied Mathematics and Decision Sciences
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A multi-criteria tabu search approach to cell formation problems in group technology with multiple objectives
A. Hertz, B. Jaumard, C. C. Ribeiro, W. P. Formosinho Filho (1994)
RAIRO - Operations Research - Recherche Opérationnelle
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Application of Hybrid Models to Blood Cell Production in the Bone Marrow
N. Bessonov, F. Crauste, S. Fischer, P. Kurbatova, V. Volpert (2011)
Mathematical Modelling of Natural Phenomena
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A hybrid model of red blood cell production, where cells are considered as discrete objects while intra-cellular proteins and extra-cellular biochemical substances are described with continuous models, is proposed. Spatial organization and regulation of red blood cell production (erythropoiesis) are investigated. Normal erythropoiesis is simulated in two dimensions, and the influence on the output of the model of some parameters involved...
Pipelined decomposable BSP computers
Martin Beran (2002)
RAIRO - Theoretical Informatics and Applications - Informatique Théorique et Applications
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The class of weak parallel machines is interesting, because it contains some realistic parallel machine models, especially suitable for pipelined computations. We prove that a modification of the bulk synchronous parallel (BSP) machine model, called decomposable BSP (dBSP), belongs to the class of weak parallel machines if restricted properly. We will also correct some earlier results about pipelined parallel Turing machines.
Computational modeling of tumor response to vascular-targeting therapies. I: Validation.
Gevertz, Jana L. (2011)
Computational & Mathematical Methods in Medicine
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A cellular automaton model of brain tumor treatment and resistance.
Schmitz, Jonathan E., Kansal, Anuraag R., Torquato, Salvatore (2002)
Journal of Theoretical Medicine
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