Backward reduction application for minimizing wind power scenarios in stochastic programming
In order to make informed decisions in the presence of uncertainties, risk management problems of power utilities may be modelled by multistage stochastic programs. These programs use a set of scenarios (or plausible realizations) and corresponding probabilities to model the multivariate random data...
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my.uniten.dspace-305792024-04-18T09:27:52Z Backward reduction application for minimizing wind power scenarios in stochastic programming Muhamad Razali N.M. Hashim A.H. 36440450000 24447656300 Scenario reduction Stochastic programming Wind power Computational complexity Electric power generation Optimization Risk analysis Risk management Stochastic programming Stochastic systems Stream flow Wind power Electrical load Electricity prices Generation scheduling Informed decision Malaysia Management problems New applications Power systems Power utility Random data Reduction techniques Renewable sources Scenario reduction Electric generators In order to make informed decisions in the presence of uncertainties, risk management problems of power utilities may be modelled by multistage stochastic programs. These programs use a set of scenarios (or plausible realizations) and corresponding probabilities to model the multivariate random data process, e.g. electrical load, stream flows to hydro units, generation output of intermittent renewable sources as well as fuel and electricity prices. The number of scenarios needed to accurately represent the uncertainty involved is generally large, thus due to computational complexity and time limitation, scenario reduction techniques are often utilized. The paper proposes a new application for recursive backward scenario reduction to establish possible next-day scenarios for wind power generation at Mersing Johor, Malaysia. The algorithm determines a subset from the initial scenario set and assigns new probabilities to the preserved scenarios. The output is intended to assist generation scheduling of power system employing intermittent type renewable sources. � 2010 IEEE. Final 2023-12-29T07:49:43Z 2023-12-29T07:49:43Z 2010 Conference Paper 10.1109/PEOCO.2010.5559252 2-s2.0-77957985510 https://www.scopus.com/inward/record.uri?eid=2-s2.0-77957985510&doi=10.1109%2fPEOCO.2010.5559252&partnerID=40&md5=55dabd57b8c52129fe17bc3ca8704772 https://irepository.uniten.edu.my/handle/123456789/30579 5559252 430 434 Scopus |
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Scenario reduction Stochastic programming Wind power Computational complexity Electric power generation Optimization Risk analysis Risk management Stochastic programming Stochastic systems Stream flow Wind power Electrical load Electricity prices Generation scheduling Informed decision Malaysia Management problems New applications Power systems Power utility Random data Reduction techniques Renewable sources Scenario reduction Electric generators |
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Scenario reduction Stochastic programming Wind power Computational complexity Electric power generation Optimization Risk analysis Risk management Stochastic programming Stochastic systems Stream flow Wind power Electrical load Electricity prices Generation scheduling Informed decision Malaysia Management problems New applications Power systems Power utility Random data Reduction techniques Renewable sources Scenario reduction Electric generators Muhamad Razali N.M. Hashim A.H. Backward reduction application for minimizing wind power scenarios in stochastic programming |
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In order to make informed decisions in the presence of uncertainties, risk management problems of power utilities may be modelled by multistage stochastic programs. These programs use a set of scenarios (or plausible realizations) and corresponding probabilities to model the multivariate random data process, e.g. electrical load, stream flows to hydro units, generation output of intermittent renewable sources as well as fuel and electricity prices. The number of scenarios needed to accurately represent the uncertainty involved is generally large, thus due to computational complexity and time limitation, scenario reduction techniques are often utilized. The paper proposes a new application for recursive backward scenario reduction to establish possible next-day scenarios for wind power generation at Mersing Johor, Malaysia. The algorithm determines a subset from the initial scenario set and assigns new probabilities to the preserved scenarios. The output is intended to assist generation scheduling of power system employing intermittent type renewable sources. � 2010 IEEE. |
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36440450000 |
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36440450000 Muhamad Razali N.M. Hashim A.H. |
| format |
Conference Paper |
| author |
Muhamad Razali N.M. Hashim A.H. |
| author_sort |
Muhamad Razali N.M. |
| title |
Backward reduction application for minimizing wind power scenarios in stochastic programming |
| title_short |
Backward reduction application for minimizing wind power scenarios in stochastic programming |
| title_full |
Backward reduction application for minimizing wind power scenarios in stochastic programming |
| title_fullStr |
Backward reduction application for minimizing wind power scenarios in stochastic programming |
| title_full_unstemmed |
Backward reduction application for minimizing wind power scenarios in stochastic programming |
| title_sort |
backward reduction application for minimizing wind power scenarios in stochastic programming |
| publishDate |
2023 |
| _version_ |
1806426218501767168 |
| score |
13.214268 |