Emergency services
; Forecasting
; Intelligent systems
; Managers
; Monte Carlo methods
; Oil spills
; Probability
; Reliability
; Reliability analysis
; Forecast reliability
; HyosPy
; Oil-spill model
; Probability maps
; Uncertainty quantifications
; Uncertainty analysis
; environmental impact assessment
; forecasting method
; hindcasting
; Monte Carlo analysis
; oil spill
; oil spill response
; quantitative analysis
; reliability analysis
; shipping
; uncertainty analysis
; emergency
; human
; manager
; Monte Carlo method
; oil spill
; probability
; quantitative study
; reliability
; statistical model
; uncertainty
; bay
; forecasting
; Monte Carlo method
; reproducibility
; statistical model
; uncertainty
; water pollution
; Atlantic Ocean
; Gulf of Mexico
; Texas Shelf
; Bays
; Forecasting
; Models, Statistical
; Monte Carlo Method
; Petroleum Pollution
; Reproducibility of Results
; Uncertainty
; Water Pollution
Scopus学科分类:
Agricultural and Biological Sciences: Aquatic Science
; Earth and Planetary Sciences: Oceanography
; Environmental Science: Pollution
英文摘要:
As oil transport increasing in the Texas bays, greater risks of ship collisions will become a challenge, yielding oil spill accidents as a consequence. To minimize the ecological damage and optimize rapid response, emergency managers need to be informed with how fast and where oil will spread as soon as possible after a spill. The state-of-the-art operational oil spill forecast modeling system improves the oil spill response into a new stage. However uncertainty due to predicted data inputs often elicits compromise on the reliability of the forecast result, leading to misdirection in contingency planning. Thus understanding the forecast uncertainty and reliability become significant. In this paper, Monte Carlo simulation is implemented to provide parameters to generate forecast probability maps. The oil spill forecast uncertainty is thus quantified by comparing the forecast probability map and the associated hindcast simulation. A HyosPy-based simple statistic model is developed to assess the reliability of an oil spill forecast in term of belief degree. The technologies developed in this study create a prototype for uncertainty and reliability analysis in numerical oil spill forecast modeling system, providing emergency managers to improve the capability of real time operational oil spill response and impact assessment. � 2017 Elsevier Ltd
Institute of Advanced Computing and Digital Engineering, Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, 1068 Xueyuan Avenue, Shenzhen University Town, Shenzhen, Guangdong, China; Dept. of Civil, Architectural and Environmental Engineering, Univ. of Texas at Austin, 1 University Station C1786, Austin, TX, United States
Recommended Citation:
Hou X.,Hodges B.R.,Feng D.,et al. Uncertainty quantification and reliability assessment in operational oil spill forecast modeling system[J]. Marine Pollution Bulletin,2017-01-01,116(2018-01-02)