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| Ultima descărcare din IBN: 2024-01-03 05:54 |
 SM ISO690:2012BĂRBAT, Boldur-Eugen, FILIP, Florin Gheorghe. Cybernetic Modelling. Proof-of-Concept Example. In: Microelectronics and Computer Science, Ed. 9, 19-21 octombrie 2017, Chisinau. Chișinău, Republica Moldova: Universitatea Tehnică a Moldovei, 2017, Ediția 9, pp. 239-242. ISBN 978-9975-4264-8-0. |
| EXPORT metadate: Google Scholar Crossref CERIF DataCite Dublin Core |
| Microelectronics and Computer Science Ediția 9, 2017 |
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Conferința "Microelectronics and Computer Science" 9, Chisinau, Moldova, 19-21 octombrie 2017 | ||||||
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| Pag. 239-242 | ||||||
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Continuing the preceding paper [5], this one illustrates Cybernetic Modelling , applying it to biologic stability. A Lotka Volterra model for preda tor prey spe cies is employed to (discrete time) modelling homeostasis with hysteretic delay , simulating (macrochronic) stability of simple cybernetic (Barkhausen loop) systems . NL capability is achieved replacing differential equations by iterative loops (with polysemantic time granularity) and employing ( some ) non numeric mathematics . The modelling subspecies is evaluated from both transdisciplinary bridge legs : software engineering (undemanding yet flexible post industrial apparatus ) and biology/ecology (versatile (field or laboratory) research tool , with user friend ly interface, allowing to write “What if” scenarios for handling (over)simplified ecologic (sub) systems in their real world habitats ) . |
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| Cuvinte-cheie biologic stability (Lotka Volterra model), c ybernetic m odel ling (CyMo), non algorithmic software, non numeric mathematics, service oriented engineering |
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Cerif XML Export
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