A Hybrid Particle Swarm Optimization with Small Population Size to Solve the Optimal Short-Term Hydro-Thermal Unit Commitment Problem,Energy | SCI/EI待收录(JA) 4.844 | 一区DOI:10.1016/j.energy.2016.05.057 | 1 是 |
A modified chaotic differential evolution algorithm for short-term optimal hydrothermal scheduling,International Journal of Electrical Power & Energy Systems,65,159-168,2015-02-28 | SCI/EI(JA) 2.630 | 二区(2012)SCI:WOS:000346541900018 EI:20144500165788 | 1 是 |
A modified MOEA/D approach to the solution of multi-objective optimal power flow problem,Applied Soft Computing | SCI/EI(JA) 2.810(待发表) | 二区doi:10.1016/j.asoc.2016.06.022 | 1 是 |
Short-term hydrothermal scheduling considering valve point effect using acceleration-based PSO algorithm,International Journal of Power and Energy Systems,33,2,45-53,2013-05-14 | EI收录(JA) | 20133116570363 | 1 是 |
An improved differential evolution approach for short-term hydrothermal scheduling,Journal of Information and Computational Science,12,5,1817-1829,2015-03-20 | EI收录(JA) | 20151500723732 | 1 否 |
An improved particle swarm optimization approach for unit commitment problem,Open Automation and Control Systems Journal,6,1,629-636,2014-12-31 | EI收录(JA) | 20151500738642 | 2 是 |
A small-population based binary PSO approach for unit commitment problem,Journal of Information and Computational Science,12,9,3599-3610,2015-06-10 | EI收录(JA) | 20152801011055 | 2 是 |
