Behavioral modeling of Wireless Power Transfer System coils
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- @Article{STOYKA:2020:MCS,
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author = "Kateryna Stoyka and Gennaro {Di Mambro} and
Nicola Femia and Antonio Maffucci and Salvatore Ventre and
Fabio Villone",
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title = "Behavioral modeling of Wireless Power Transfer System
coils",
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journal = "Mathematics and Computers in Simulation",
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year = "2020",
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ISSN = "0378-4754",
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DOI = "doi:10.1016/j.matcom.2020.01.004",
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URL = "http://www.sciencedirect.com/science/article/pii/S0378475420300057",
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keywords = "genetic algorithms, genetic programming, Coupled
coils, Behavioral modeling, Electrical mobility,
Inductive power transfer",
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abstract = "This paper proposes a technique to derive behavioral
models for describing the mutual inductance between the
coupled coils used in Wireless Power Transfer Systems
for the electrical recharging of vehicles. These models
describe analytically the dependence of the mutual
inductance with respect to geometrical parameters
related to the coils misalignments, to take into
account the real operating conditions of such
recharging systems. A Multi-Objective Genetic
Programming (MOGP) algorithm has been adopted to
discover behavioral models offering optimal trade-off
between accuracy and complexity. The behavioral models
are identified from a set of data evaluated by using
literature analytical models and are then validated by
using another set of such data and also by comparing
the results with full 3D Finite Element numerical
simulations",
- }
Genetic Programming entries for
Kateryna Stoyka
Gennaro Di Mambro
Nicola Femia
Antonio Maffucci
Salvatore Ventre
Fabio Villone
Citations