Title :
Quantum-inspired genetic algorithm based on phase encoding
Author :
Xiande Liu ; Xiaoming Liu
Author_Institution :
Sch. of Comput. & Inf. Technol., Northeast Pet. Univ., Daqing, China
Abstract :
Due to frequent decoding operations, the efficiency of optimization is severely reduced when the binary quantum genetic algorithm based on qubits measure is applied to the continuous space optimization. To solve this problem, a quantum genetic algorithm based on phase encoding is proposed in this paper. In this method, the chromosomes are encoded by the phase of qubits, evolved by quantum rotation gates, and mutated by quantum Pauli-Z gates. As the optimization process is performed in [0, 2π], which has nothing to do with specific issues, therefore, the proposed method has good adaptability for a variety of optimization problems. With application of function extremum optimization, the simulation results show that the approach is superior to common quantum genetic algorithm and simple genetic algorithm in both search capability and optimization efficiency.
Keywords :
encoding; genetic algorithms; quantum gates; search problems; binary quantum genetic algorithm; chromosome encoding; chromosome mutation; continuous space optimization; decoding operations; function extremum optimization process; optimization efficiency; optimization efficiency reduction; phase encoding; quantum Pauli-Z gates; quantum rotation gates; quantum-inspired genetic algorithm; qubit phase; search capability; Biological cells; Convergence; Encoding; Genetic algorithms; Logic gates; Optimization; Quantum computing; optimization algorithm; phase encoding; quantum computation; quantum genetic algorithm;
Conference_Titel :
Natural Computation (ICNC), 2013 Ninth International Conference on
Conference_Location :
Shenyang
DOI :
10.1109/ICNC.2013.6818017
