Higher-Order Quantum-Inspired Genetic Algorithms

Author

Nowotniak, Robert ; Kucharski, Jacek

Author_Institution

Inst. of Appl. Comput. Sci., Lodz Univ. of Technol., Lodz, Poland

fYear

2014

fDate

7-10 Sept. 2014

Firstpage

465

Lastpage

470

Abstract

This paper presents a theory and an empirical evaluation of Higher-Order Quantum-Inspired Genetic Algorithms. Fundamental notions of the theory have been introduced, and a novel Order-2 Quantum-Inspired Genetic Algorithm (QIGA2) has been developed. Contrary to all QIGA algorithms which represent quantum genes as independent qubits, in higher-order QIGAs quantum registers are used to represent genes strings, which allows modelling of genes relations using quantum phenomena. Performance comparison has been conducted on a benchmark of 20 deceptive combinatorial optimization problems. It has been presented that using higher quantum orders is beneficial for genetic algorithm efficiency, and the new QIGA2 algorithm outperforms the old QIGA algorithm tuned in highly compute-intensive metaoptimization process.

Keywords

combinatorial mathematics; genetic algorithms; quantum computing; quantum theory; QIGA2 algorithms; combinatorial optimization problems; compute-intensive metaoptimization process; genes relations modelling; genes strings; higher-order QIGAs quantum registers; higher-order quantum-inspired genetic algorithms; independent qubits; order-2 quantum-inspired genetic algorithm; quantum genes; quantum phenomena; Biological cells; Genetic algorithms; Quantum computing; Quantum mechanics; Registers; Sociology; Statistics;

fLanguage

English

Publisher

ieee

Conference_Titel

Computer Science and Information Systems (FedCSIS), 2014 Federated Conference on

Conference_Location

Warsaw

Type

conf

DOI

10.15439/2014F99

Filename

6933052