Your search keyword '"Srinivas, L.R."' showing total 4 results

1. Adaptive PSODV algorithm for OPF with non-smooth cost functions and statistical analysis

Author

Vaisakh, K. and Srinivas, L.R.

Subjects

*PARTICLE swarm optimization, *ALGORITHMS, *PERTURBATION theory, *STATISTICS, *ELECTRIC potential, *PROBLEM solving, *SIMULATION methods & models, *ELECTRIC power transmission

Abstract

Abstract: This paper presents a particle swarm optimization with differentially perturbed velocity hybrid algorithm with adaptive acceleration coefficient (APSO-DV) for solving the optimal power flow problem with non-smooth and non-convex generator fuel cost characteristics. The APSO-DV employs differentially perturbed velocity with adaptive acceleration coefficient for updating the positions of particles for the particle swarm optimization. The feasibility of the proposed approach was tested on IEEE 30-bus and IEEE 118-bus systems with three different objective functions. Several cases were investigated to test and validate the robustness of the proposed method in finding the optimal solution. The effectiveness of the proposed approach was tested including contingency also. Simulation results demonstrate that the APSO-DV provides superior results compared to classical DE, PSO, PSO-DV and other methods recently reported in the literature. An innovative statistical analysis based on central tendency measures and dispersion measures was carried out on the bus voltage profiles and voltage stability indices. [Copyright &y& Elsevier]

Published

2011

2. Evolving ant direction differential evolution for OPF with non-smooth cost functions

Author

Vaisakh, K. and Srinivas, L.R.

Subjects

*GENETIC algorithms, *SIMULATION methods & models, *PROBLEM solving, *MATHEMATICAL optimization, *ROBUST control, *MATHEMATICAL functions

Abstract

Abstract: In this paper, an effective and reliable algorithm, termed as evolving ant direction differential evolution (EADDE) algorithm, for solving the optimal power flow problem with non-smooth and non-convex generator fuel cost characteristics is presented. In this method, suitable mutation operator for differential evolution (DE) is found by ant colony search. The genetic algorithm evolves the ant colony parameters and the Newton–Raphson method solves the power flow problem. The proposed algorithm has been examined on the standard IEEE 30-bus and IEEE 57-bus systems with three different objective functions. Different cases were considered to investigate the robustness of the proposed method in finding the global solution. The EADDE provides better results compared to classical DE and other methods recently reported in the literature as demonstrated by simulation results. [Copyright &y& Elsevier]

Published

2011

3. Genetic evolving ant direction HDE for OPF with non-smooth cost functions and statistical analysis

Author

Vaisakh, K. and Srinivas, L.R.

Subjects

*GENETIC algorithms, *MATHEMATICAL optimization, *PROBABILITY theory, *NEWTON-Raphson method, *HYBRID power systems, *EVOLUTIONARY theories, *STATISTICS, *ELECTRIC potential, *SIMULATION methods & models, *FEASIBILITY studies

Abstract

Abstract: This paper proposes an evolving ant direction hybrid differential evolution (EADHDE) algorithm for solving the optimal power flow problem with non-smooth and non-convex generator fuel cost characteristics. The EADHDE employs ant colony search to find a suitable mutation operator for hybrid differential evolution (HDE) where as the ant colony parameters are evolved using genetic algorithm approach. The Newton–Raphson method solves the power flow problem. The feasibility of the proposed approach was tested on IEEE 30-bus system with three different cost characteristics. Several cases were investigated to test and validate the robustness of the proposed method in finding optimal solution. Simulation results demonstrate that the EADHDE provides very remarkable results compared to classical HDE and other methods reported in the literature recently. An innovative statistical analysis based on central tendency measures and dispersion measures was carried out on the bus voltage profiles and voltage stability indices. [ABSTRACT FROM AUTHOR]

Published

2011

4. A genetic evolving ant direction DE for OPF with non-smooth cost functions and statistical analysis

Author

Vaisakh, K. and Srinivas, L.R.

Subjects

*ELECTRICAL engineering, *QUANTITATIVE research, *VOLTAGE regulators, *GENETIC algorithms, *NEWTON-Raphson method, *FEASIBILITY studies, *COMPUTER simulation, *EVOLUTIONARY computation

Abstract

Abstract: This paper proposes an evolving ant direction differential evolution (EADDE) algorithm for solving the optimal power flow problem with non-smooth and non-convex generator fuel cost characteristics. The EADDE employs ant colony search to find a suitable mutation operator for differential evolution (DE) whereas the ant colony parameters are evolved using genetic algorithm approach. The Newton–Raphson method solves the power flow problem. The feasibility of the proposed approach was tested on IEEE 30-bus system with three different cost characteristics. Several cases were investigated to test and validate the robustness of the proposed method in finding the optimal solution. Simulation results demonstrate that the EADDE provides superior results compared to a classical DE and other methods recently reported in the literature. An innovative statistical analysis based on central tendency measures and dispersion measures was carried out on the bus voltage profiles and voltage stability indices. [Copyright &y& Elsevier]

Published

2010