R.K. Lay scite author profile

R.K. Lay

5Publications

8Citation Statements Received

0Citation Statements Given

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Naval Meteorology and Oceanography Command, Aston University, General Electric (United States)

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A hybrid artificial neural network/genetic algorithm approach to on-line switching operations for the optimization of electrical power systems

Arjona

Lay²,

Harrington³

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This paper is intended to present an approach to decision making in the operation of electrical power systems that will use a simple genetic algorithm as a teacher for the process of supervised learning of a feedforward, backpropagation artificial neural network. The fitness function used in the genetic algorithm is based on a load flow program and used to determine the optimal condition of the critical switches of the system. Reward and penalty functions are applied to it in order to emphasize environmental, economic, security, robustness, public policy and other considerations as they are predetermined by the philosophy of operation of the utility. These considerations (policies) become a part of the training set and operation of the neural network. The fitness function used by the genetic algorithm in order to rank the possible solutions is based on a load flow program .The binary nature of the genetic algorithm is particularly appropriate for the operation of switches. The result of the methodology is the equivalent of an on-line implicit load flow program used to redesign the configuration of the system in real time by opening and closing critical switches that are placed along the power system.Experiments leading towards the development of this methodology using real data from the Peninsular Control Area (The Yucatan Peninsula) of the National Mexican Interconnected Power Grid are presented.

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Risk Management of Complex, Technology-Based Systems: Observations on Similarities and Differences

Lay

Strasser

1987

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Performance of Lorenz-type medium-frequency inductor alternators on load

Davies

Lay

1968

Proc. Inst. Electr. Eng. UK

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Error correction in high frequency automatic link establishment radios with and without link protection

Lay

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Rotor-surface flux distributions in Lorenz-type medium-frequency inductor alternators

Davies

Lay

1967

Proc. Inst. Electr. Eng. UK

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R.K. Lay

A hybrid artificial neural network/genetic algorithm approach to on-line switching operations for the optimization of electrical power systems

Risk Management of Complex, Technology-Based Systems: Observations on Similarities and Differences

Performance of Lorenz-type medium-frequency inductor alternators on load

Error correction in high frequency automatic link establishment radios with and without link protection

Rotor-surface flux distributions in Lorenz-type medium-frequency inductor alternators

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