Showing total 3 results

1. Digital FIR Filter Design Using Hybrid Random Particle Swarm Optimization with Differential Evolution

Author

Sakti Prasad Ghoshal, Vasundhara, Durbadal Mandal, and Rajib Kar

Subjects

Mathematical optimization, General Computer Science, business.industry, Computer science, Low-pass filter, Evolutionary algorithm, PSO, Random PSODE, Particle swarm optimization, Evolutionary Optimization Technique, QA75.5-76.95, lcsh:QA75.5-76.95, DE, Computational Mathematics, Differential evolution, Electronic computers. Computer science, PSODE, Local search (optimization), lcsh:Electronic computers. Computer science, FIR Filter, High-pass filter, business, Global optimization, Linear phase

Abstract

This paper presents a novel approach of designing linear phase FIR low pass and high pass filter using Random PSO in hybrid with DE known as Random PSODE (RPSODE). In this paper, the Random PSO is used which utilises the weighted particle to guide the search direction for both explorative and exploitative searches. Differential evolution (DE) is one of the very fast and robust evolutionary algorithms which has shown superior performance for continuous global optimization; uses differential information to guide its search direction but sometime causes instability problem; whereas, PSO is a robust, population based stochastic search technique but has the problem of sub-optimality. This paper efficiently combines the Random PSO and DE so as to overcome the disadvantages faced by both the algorithms individually and is used for the design of linear phase low pass and high pass FIR filters. The simulation results show the superiority of RPSODE in global convergence properties and local search ability, and prove it to be a promising candidate for designing the FIR filters. RPSODE outperforms PSO, DE, and PSODE not only in magnitude response but in the convergence speed as well.

Published

1970

2. Direct least squares and derivative-free optimisation techniques for determining mine-induced horizontal ground displacement

Author

Janusz Rusek and Krzysztof Tajduś

Subjects

horizontal ground displacement, mining, direct least squares, derivative-free optimisation, genetic algorithms, differential evolution, particle swarm optimization, Technology, Technology (General), T1-995

Abstract

The paper presents the results of analyses concerning a new approach to approximating trajectory of mining-induced horizontal displacements. Analyses aimed at finding the most effective method of fitting data to the trajectory of mining-induced horizontal displacements. Two variants were made. In the first, the direct least square fitting (DLSF) method was applied based on the minimization of the objective function defined in the form of an algebraic distance. In the second, the effectiveness of differential-free optimization methods (DFO) was verified. As part of this study, the following methods were tested: genetic algorithms (GA), differential evolution (DE) and particle swarm optimization (PSO). The data for the analysis were measurements of on the ground surface caused by the mining progressive work at face no. 698 of the German Prospel-Haniel mine. The results obtained were compared in terms of the fitting quality, the stability of the results and the time needed to carry out the calculations. Finally, it was found that the direct least square fitting (DLSF) approach is the most effective for the analyzed registration data base. In the authors’ opinion, this is dictated by the angular range in which the measurements within a given measuring point oscillated.

Published

1921

3. Hybrid Multiobjective Differential Evolution Incorporating Preference Based Local Search

Author

Yuping Wang and Ning Dong

Subjects

Mathematical optimization, General Computer Science, Population, MathematicsofComputing_NUMERICALANALYSIS, Multi-objective optimization, lcsh:QA75.5-76.95, Set (abstract data type), sparse region, Local search (optimization), multiobjective optimization, Extreme point, education, preference, Preference (economics), Mathematics, dynamical adjustment, education.field_of_study, business.industry, hybrid differential evolution, Function (mathematics), QA75.5-76.95, Computational Mathematics, Differential evolution, Electronic computers. Computer science, lcsh:Electronic computers. Computer science, business

Abstract

The performance of Differential Evolution (DE) for multiobjective optimization problems (MOPs) can be greatly enhanced by hybridizing with other techniques. In this paper, a new hybrid DE incorporating preference based local search is proposed. In every generation, a set of nondominated solutions is generated by DE operation. Usually these solutions distribute unevenly along the obtained nondominated set. To get solutions in the sparse region of the nondominated set, a mini population and preference based local search algorithm is specifically designed, and is used to exploit the sparse region by optimizing an achievement scalarizing function (ASF) with the dynamically adjusted reference point. As a result, multiple solutions in the sparse region can be obtained. Moreover, to retain uniformly spread nondominated solutions, an improved ε-dominance strategy, which would not delete the extreme points found during the evolution, is proposed to update the external archive set. Finally, numerical results and comparisons demonstrate the efficiency of the proposed algorithm.

Published

1970