Biobjective Hybrid Evolutionary Algorithm Applied to Resonator Filters of Arbitrary Topology

Biobjective Hybrid Evolutionary Algorithm Applied to Resonator Filters of Arbitrary Topology

This paper presents a hybrid evolutionary algorithm to synthesize the resonator filters of an arbitrary topology. In this approach the structure space is explored concerning predefined small building-blocks having specific functionalities (resonator or coupling) and rules for structural restrictions...

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Hauptverfasser: Dantas, M.J.P., da C. Brito, L., de Carvalho, P.H.P.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Circuit synthesis
Circuit topology
Coupling circuits
Digital filters
Evolutionary computation
Knowledge engineering
Mathematics
Physics
Resonator filters
Space exploration
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Zusammenfassung:This paper presents a hybrid evolutionary algorithm to synthesize the resonator filters of an arbitrary topology. In this approach the structure space is explored concerning predefined small building-blocks having specific functionalities (resonator or coupling) and rules for structural restrictions. The method used 2D representation, proposing new strong genetic operators and combining a biobjective evolutionary algorithm to evolve topologies and local search to improve the circuit parameters. The results showed that the proposed method generates, with small populations and few generations, small well-structured circuits which accomplish the specifications. Two examples using building-blocks with elements R/L/C are presented and the characteristics were consistent with those circuits obtained by the conventional approach.
DOI:10.1109/ICECS.2006.379784