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CEC
2009
IEEE

Differential Evolution with Laplace mutation operator

14 years 6 months ago
Differential Evolution with Laplace mutation operator
— Differential Evolution (DE) is a novel evolutionary approach capable of handling non-differentiable, non-linear and multi-modal objective functions. DE has been consistently ranked as one of the best search algorithm for solving global optimization problems in several case studies. Mutation operation plays the most significant role in the performance of a DE algorithm. This paper proposes a simple modified version of classical DE called MDE. MDE makes use of a new mutant vector in which the scaling factor F is self adaptive. F is a random variable following Laplace distribution. The proposed algorithm is examined on a set of ten standard, nonlinear, benchmark, global optimization problems having different dimensions, taken from literature. The preliminary numerical results show that the incorporation of the proposed mutant vector helps in improving the performance of DE in terms of final convergence rate without compromising with the fitness function value.
Millie Pant, Radha Thangaraj, Ajith Abraham, Crina
Added 20 May 2010
Updated 20 May 2010
Type Conference
Year 2009
Where CEC
Authors Millie Pant, Radha Thangaraj, Ajith Abraham, Crina Grosan
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