Issue: 2013/Vol.23/No.2, Pages 81-90
A SEMI-MARKOV MODEL OF THE VARIABILITY OF POWER GENERATION FROM RENEWABLE SOURCES
Cite as: J. Malinowski. A semi-Markov model of the variability of power generation from renewable sources. Operations Research and Decisions 2013: 23(2), 81-90. DOI 10.5277/ord130207
Abstract
The paper presents a new approach to modeling the variability of power generation from a renewable source such as wind or flowing water. The force of the power generating agent is assumed to change according to the semi-Markov process with finite state space. For the purpose of its construction, the range of possible values expressing the agent’s force is divided into a finite number of subintervals. It is natural to assume that the time during which the agent’s force remains within one such interval, and the probabilities of transitions to neighboring intervals depend to some extent on the agent’s earlier behavior. The model’s accuracy is determined by the number of subintervals used and the assumed degree to which the agent’s force depends on its history. This degree is expressed by the number of the most recently entered subintervals relevant to predicting the agent’s future behavior. According to the presupposed accuracy level, an appropriately complex state-space and a diagram of the inter-state transitions for the modeled process have been constructed. Subsequently, it is demonstrated how certain parameters of this process, related to forecasting power generation, can be calculated by means of the calculus of the Laplace transforms.
Keywords: renewable power generation, forecasting of environmental conditions, semi-Markov modeling, Laplace transform
Received: Accepted: