The Ant-Q algorithm applied to the nuclear reload problem
2002; Elsevier BV; Volume: 29; Issue: 12 Linguagem: Inglês
10.1016/s0306-4549(01)00118-9
ISSN1873-2100
AutoresL. Ramos Machado, Roberto Schirru,
Tópico(s)Distributed Control Multi-Agent Systems
ResumoThe nuclear core fuel reload optimization is a NP-complete combinatorial optimization problem where the aim is to find a pattern of fuel assemblies that maximizes burnup or minimizes the power peak factor. For decades this problem was solved using an expert's knowledge. From the eighties, however, there have been efforts to automate fuel reload. The first relevant effort used simulated annealing, but more recent efforts have shown the genetic algorithm's (GA) efficiency on this problem. Following this trend, our aim is to optimize nuclear fuel reload using Ant-Q, a reinforcement learning algorithm based on the Cellular Computing paradigm. Ant-Q's results on the traveling salesmen problem, which is conceptually similar to fuel reload, are better than the GA's. Ant-Q was tested on fuel reload by the simulation of the first out-in cycle reload of Biblis, a 193 assembly PWR and preliminary tests were performed for the cycle 7 reload of Angra I PWR. Comparing Ant-Q's results with the GA's, it can be verified that, even without local heuristics, the former algorithm can be used to solve the nuclear fuel reload problem.
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