research:biomodels
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research:biomodels [2007/04/22 19:38] – jdedecker | research:biomodels [2009/11/30 16:52] (current) – *jessie's dharnie | ||
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====== Biologically-Inspired Programming Models ====== | ====== Biologically-Inspired Programming Models ====== | ||
- | [[http://prog.vub.ac.be/ | + | [[http://www.dedecker.org/|Jessie Dedecker]] |
The goal of this research is to learn from biological models to structure, design and implement robust and scalable ambient intelligent systems. | The goal of this research is to learn from biological models to structure, design and implement robust and scalable ambient intelligent systems. | ||
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===== Motivation ===== | ===== Motivation ===== | ||
- | Biological models have a number of interesting properties that can be useful in the design of robust and large-scale ambient intelligent systems. | + | Biological models have a number of interesting properties that can be useful in the design of robust and large-scale ambient intelligent systems. |
* The mechanism of coordination is fully decoupled from the entities (ants and termintes) such that if an entity fails the colony can still proceed with its task. Hence, the communication mechanism is robust with respect to failures. | * The mechanism of coordination is fully decoupled from the entities (ants and termintes) such that if an entity fails the colony can still proceed with its task. Hence, the communication mechanism is robust with respect to failures. | ||
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[3] Barron | [3] Barron | ||
+ | [4] Swarm Intelligence, | ||
+ | |||
+ | [5] Emergence: The Connected Lives of Ants, Brains, Cities, and Software, ISBN: 0-684-86875-X |
research/biomodels.1177263508.txt.gz · Last modified: 2007/04/23 16:24 (external edit)