Multi-objective optimal power flow using quasi-oppositional teaching learning based optimization

被引:79
|
作者
Mandal, Barun [1 ]
Roy, Provas Kumar [2 ]
机构
[1] Kalyani Govt Engn Coll, Dept Elect Engn, Kalyani, W Bengal, India
[2] Dr BC Roy Engn Coll, Dept Elect Engn, Durgapur, W Bengal, India
来源
APPLIED SOFT COMPUTING | 2014年 / 21卷
关键词
Optimal power flow; Teaching learning based optimization; Quasi oppositional based learning; Multi objective optimization; Voltage stability index; BIOGEOGRAPHY-BASED OPTIMIZATION; SWARM OPTIMIZATION; FORAGING ALGORITHM; EMISSION; DISPATCH; SYSTEMS; REAL; COST;
D O I
10.1016/j.asoc.2014.04.010
中图分类号
TP18 [人工智能理论];
学科分类号
081104 ; 0812 ; 0835 ; 1405 ;
摘要
This paper describes teaching learning based optimization (TLBO) algorithm to solve multi-objective optimal power flow (MOOPF) problems while satisfying various operational constraints. To improve the convergence speed and quality of solution, quasi-oppositional based learning ( QOBL) is incorporated in original TLBO algorithm. The proposed quasi-oppositional teaching learning based optimization (QOTLBO) approach is implemented on IEEE 30-bus system, Indian utility 62-bus system and IEEE 118-bus system to solve four different single objectives, namely fuel cost minimization, system power loss minimization and voltage stability index minimization and emission minimization; three bi-objectives optimization namely minimization of fuel cost and transmission loss; minimization of fuel cost and L-index and minimization of fuel cost and emission and one tri-objective optimization namely fuel cost, minimization of transmission losses and improvement of voltage stability simultaneously. In this article, the results obtained using the QOTLBO algorithm, is comparable with those of TLBO and other algorithms reported in the literature. The numerical results demonstrate the capabilities of the proposed approach to generate true and well-distributed Pareto optimal non-dominated solutions of the multi-objective OPF problem. The simulation results also show that the proposed approach produces better quality of the individual as well as compromising solutions than other algorithms. (C) 2014 Elsevier B.V. All rights reserved.
引用
收藏
页码:590 / 606
页数:17
相关论文
共 50 条
  • [1] Quasi-oppositional Biogeography-based Optimization for Multi-objective Optimal Power Flow
    Roy, P. K.
    Mandal, D.
    [J]. ELECTRIC POWER COMPONENTS AND SYSTEMS, 2012, 40 (02) : 236 - 256
  • [2] Optimal reactive power dispatch using quasi-oppositional teaching learning based optimization
    Mandal, Barun
    Roy, Provas Kumar
    [J]. INTERNATIONAL JOURNAL OF ELECTRICAL POWER & ENERGY SYSTEMS, 2013, 53 : 123 - 134
  • [3] Multi-objective quasi-oppositional teaching learning based optimization for optimal location of distributed generator in radial distribution systems
    Sultana, Sneha
    Roy, Provas Kumar
    [J]. INTERNATIONAL JOURNAL OF ELECTRICAL POWER & ENERGY SYSTEMS, 2014, 63 : 534 - 545
  • [4] Multi-objective quasi-oppositional teaching learning based optimization for economic emission load dispatch problem
    Roy, Provas Kumar
    Bhui, Sudipta
    [J]. INTERNATIONAL JOURNAL OF ELECTRICAL POWER & ENERGY SYSTEMS, 2013, 53 : 937 - 948
  • [5] A novel quasi-oppositional modified Jaya algorithm for multi-objective optimal power flow solution
    Warid, Warid
    Hizam, Hashim
    Mariun, Norman
    Wahab, Noor Izzri Abdul
    [J]. APPLIED SOFT COMPUTING, 2018, 65 : 360 - 373
  • [6] Quasi-oppositional Multi-objective Antlion Optimizer Based on Differential Evolution
    Wang Yadong
    Shi Quan
    Song Mingchang
    Song Weixing
    [J]. 2019 3RD INTERNATIONAL CONFERENCE ON ARTIFICIAL INTELLIGENCE, AUTOMATION AND CONTROL TECHNOLOGIES (AIACT 2019), 2019, 1267
  • [7] Optimal Reactive Power Dispatch Using Quasi-Oppositional Biogeography-Based Optimization
    Roy, Provas Kumar
    Mandal, Dharmadas
    [J]. INTERNATIONAL JOURNAL OF ENERGY OPTIMIZATION AND ENGINEERING, 2012, 1 (04) : 38 - 55
  • [8] A modified teaching-learning based optimization for multi-objective optimal power flow problem
    Shabanpour-Haghighi, Amin
    Seifi, Ali Reza
    Niknam, Taher
    [J]. ENERGY CONVERSION AND MANAGEMENT, 2014, 77 : 597 - 607
  • [9] Application of Multi-Objective Teaching Learning Based Optimization Algorithm to Optimal Power Flow Problem
    Nayak, M. R.
    Nayak, C. K.
    Rout, P. K.
    [J]. 2ND INTERNATIONAL CONFERENCE ON COMMUNICATION, COMPUTING & SECURITY [ICCCS-2012], 2012, 1 : 255 - 264
  • [10] Multi-Objective Optimal Power Flow Using a Modified Weighted Teaching-Learning Based Optimization Algorithm
    Ermis, S.
    [J]. ELECTRIC POWER COMPONENTS AND SYSTEMS, 2023, 51 (20) : 2536 - 2556
12345