Title :
Cooperative coevolutionary algorithm for unit commitment
Author :
Chen, Haoyong ; Wang, Xifan
Author_Institution :
Electr. Power Eng. Dept., Xi´´an Jiaotong Univ., China
fDate :
2/1/2002 12:00:00 AM
Abstract :
This paper presents a new cooperative coevolutionary algorithm (CCA) for power system unit commitment. CCA is an extension of the traditional genetic algorithm (GA) which appears to have considerable potential for formulating and solving more complex problems by explicitly modeling the coevolution of cooperating species. This method combines the basic ideas of Lagrangian relaxation technique (LR) and GA to form a two-level approach. The first level uses a subgradient-based stochastic optimization method to optimize Lagrangian multipliers. The second level uses GA to solve the individual unit commitment sub-problems. CCA can manage more complicated time-dependent constraints than conventional LR. Simulation results show that CCA has a good convergent property and a significant speedup over traditional GAs and can obtain high quality solutions. The "curse of dimensionality" is surmounted, and the computational burden is almost linear with the problem scale
Keywords :
genetic algorithms; power generation dispatch; power generation planning; power generation scheduling; stochastic processes; Lagrangian multipliers; Lagrangian relaxation technique; cooperative coevolutionary algorithm; evolutionary optimization; genetic algorithm; power system unit commitment; subgradient-based stochastic optimization method; time-dependent constraints; Costs; Dynamic programming; Genetic algorithms; Lagrangian functions; Optimization methods; Power system modeling; Power systems; Quality management; Spinning; Stochastic processes;
Journal_Title :
Power Systems, IEEE Transactions on
