Anastasios G. Bakirtzis scite author profile

This paper presents a new solution to the thermal unit-commitment (UC) problem based on an integer-coded genetic algorithm (GA). The GA chromosome consists of a sequence of alternating sign integer numbers representing the sequence of operation/reservation times of the generating units. The proposed coding achieves significant chromosome size reduction compared to the usual binary coding. As a result, algorithm robustness and execution time are improved. In addition, generating unit minimum up and minimum downtime constraints are directly coded in the chromosome, thus avoiding the use of many penalty functions that usually distort the search space. Test results with systems of up to 100 units and 24-h scheduling horizon are presented.

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Optimal Offering Strategy of a Virtual Power Plant: A Stochastic Bi-Level Approach

Kardakos

Simoglou

Bakirtzis

2015

IEEE Trans. Smart Grid

226

171

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Anastasios G. Bakirtzis

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A Solution to the Unit-Commitment Problem Using Integer-Coded Genetic Algorithm

Optimal Offering Strategy of a Virtual Power Plant: A Stochastic Bi-Level Approach

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