QEAM: An Approximate Algorithm Using P Systems with Active Membranes

This paper proposes an approximate optimization approach, called QEAM, which combines a P system with active membranes and a quantum-inspired evolutionary algorithm. QEAM uses the hierarchical arrangement of the compartments and developmental rules of a P system with active membranes, and the object...

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Veröffentlicht in:	International Journal of Computers Communications & Control 2015-04, Vol.10 (2), p.263
Hauptverfasser:	Zhang, Gexiang, Cheng, Jixiang, Gheorghe, Marian, Ipate, Florentin, Wang, Xueyuan
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms Evolutionary algorithms Genetic algorithms Membranes Optimization P system
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creator	Zhang, Gexiang Cheng, Jixiang Gheorghe, Marian Ipate, Florentin Wang, Xueyuan
description	This paper proposes an approximate optimization approach, called QEAM, which combines a P system with active membranes and a quantum-inspired evolutionary algorithm. QEAM uses the hierarchical arrangement of the compartments and developmental rules of a P system with active membranes, and the objects consisting of quantum-inspired bit individuals, a probabilistic observation and the evolutionary rules designed with quantum-inspired gates to specify the membrane algorithms. A large number of experiments carried out on benchmark instances of satisfiability problem show that QEAM outperforms QEPS (quantum-inspired evolutionary algorithm based on P systems) and its counterpart quantum-inspired evolutionary algorithm.
doi_str_mv	10.15837/ijccc.2015.2.1757
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subjects	Algorithms Evolutionary algorithms Genetic algorithms Membranes Optimization P system
title	QEAM: An Approximate Algorithm Using P Systems with Active Membranes
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