Seema N. Pandey scite author profile

In the open-access power market environment, the continuously varying loading and accommodation of various bilateral and multilateral transactions, sometimes leads to congestion, which is not desirable. In a day ahead or spot power market, generation rescheduling (GR) is one of the most prominent techniques to be adopted by the system operator (SO) to release congestion. In this paper, a novel hybrid Deep Neural Network (NN) is developed for projecting rescheduled generation dispatches at all the generators. The proposed hybrid Deep Neural Network is a cascaded combination of modified backpropagation (BP) algorithm based ANN as screening module and Deep NN as GR module. The screening module segregates the congested and non-congested loading scenarios resulting due to bilateral/multilateral transactions, efficiently and accurately. However, the GR module projects the re-scheduled active power dispatches at all the generating units at minimum congestion cost for all unseen congested loading scenarios instantly. The present approach provides a ready/instantaneous solution to manage congestion in a spot power market. During the training, the Root Mean Square Error (RMSE) is evaluated and minimized. The effectiveness of the proposed method has been demonstrated on the IEEE 30-bus system. The maximum error incurred during the testing phase is found 1.191% which is within the acceptable accuracy limits.INDEX TERMS Bilateral/multilateral transactions, congestion management, deep neural network, generation rescheduling, modified back propagation algorithm-based ANN.

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Genetic algorithm based wheeling prices allocation for Indian power utility by using MVA-mile and MW-mile approaches

Saxena¹,

Pandey²,

Srivastava³

2016

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Seema N. Pandey

Nodal congestion price estimation in spot power market using artificial neural network

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Genetic algorithm based wheeling prices allocation for Indian power utility by using MVA-mile and MW-mile approaches

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