Dynamic programming and Munkres algorithm for optimal photovoltaic arrays reconfiguration
Solar Energy, 2015•Elsevier
In this paper, an original formulation of the control problem for optimal PV array
reconfiguration, following a Total Cross Tied layout, is proposed. The formulation follows the
well-known subset sum problem, which is a special case of the knapsack problem. The
reconfiguration is a measure devoted to mitigate the mismatch effect and maximize the
output power of small photovoltaic plants under non-homogeneous working conditions.
Therefore, reconfiguration means changing the connections of the solar panels adaptively …
reconfiguration, following a Total Cross Tied layout, is proposed. The formulation follows the
well-known subset sum problem, which is a special case of the knapsack problem. The
reconfiguration is a measure devoted to mitigate the mismatch effect and maximize the
output power of small photovoltaic plants under non-homogeneous working conditions.
Therefore, reconfiguration means changing the connections of the solar panels adaptively …
Abstract
In this paper, an original formulation of the control problem for optimal PV array reconfiguration, following a Total Cross Tied layout, is proposed. The formulation follows the well-known subset sum problem, which is a special case of the knapsack problem. The reconfiguration is a measure devoted to mitigate the mismatch effect and maximize the output power of small photovoltaic plants under non-homogeneous working conditions. Therefore, reconfiguration means changing the connections of the solar panels adaptively by a dynamic switching matrix. The control system implements an easy dynamic programming algorithm to change the switches layout.
The use of the Munkres assignment method in a post-processing module makes the algorithm able to obtain the optimum configuration for which it is possible to balance and minimize the aging of the switches within the switching matrix.
Elsevier
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