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Dynamic metabolic resource allocation based on the maximum entropy principle
David Tourigny
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Corresponding author for this work
Research output
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peer-review
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Dive into the research topics of 'Dynamic metabolic resource allocation based on the maximum entropy principle'. Together they form a unique fingerprint.
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Mathematics
Maximum Entropy Principle
100%
Resource Allocation
92%
Resources
49%
Uncertainty
29%
Optimal Control
28%
Optimality Principle
26%
Yeast
24%
Modeling
23%
Hedging
22%
Culture
22%
Cell Population
21%
Model Reduction
21%
Maximum Entropy
20%
Batch
19%
Partitioning
17%
Synthesis
16%
Limiting
14%
Interpolate
13%
Strategy
12%
Model
11%
Formulation
11%
Simulation
11%
Framework
10%
Generalise
9%
Concepts
9%
Family
8%
Medicine & Life Sciences
Entropy
85%
Resource Allocation
85%
Uncertainty
65%
Batch Cell Culture Techniques
49%
Yeasts
28%
Growth
17%
Population
13%
Engineering & Materials Science
Resource allocation
59%
Entropy
59%
Fluxes
43%
Uncertainty
22%
Yeast
21%
Cells
17%
Interpolation
15%
Agriculture & Biology
resource allocation
83%
entropy
82%
uncertainty
28%
yeasts
9%
environmental factors
9%
organisms
8%
synthesis
7%
cells
4%