A Bayesian model averaging method for the derivation of reservoir operating rules

•We present an uncertainty analysis of reservoir operating rules using BMA.•The least-squares support vector machine performs best among individual models.•BMA outperforms any individual model of the operating rules. Because the intrinsic dynamics among optimal decision making, inflow processes and...

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Bibliographic Details
Published in:Journal of hydrology (Amsterdam) 2015-09, Vol.528, p.276-285
Main Authors: Zhang, Jingwen, Liu, Pan, Wang, Hao, Lei, Xiaohui, Zhou, Yanlai
Format: Article
Language:English
Subjects:
Bayesian analysis
Bayesian model averaging
Computer simulation
Fittings
Model uncertainty
Operating rules
Optimization
Regression
Reservoir operation
Reservoirs
Support vector machines
Uncertainty
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Summary:•We present an uncertainty analysis of reservoir operating rules using BMA.•The least-squares support vector machine performs best among individual models.•BMA outperforms any individual model of the operating rules. Because the intrinsic dynamics among optimal decision making, inflow processes and reservoir characteristics are complex, functional forms of reservoir operating rules are always determined subjectively. As a result, the uncertainty of selecting form and/or model involved in reservoir operating rules must be analyzed and evaluated. In this study, we analyze the uncertainty of reservoir operating rules using the Bayesian model averaging (BMA) model. Three popular operating rules, namely piecewise linear regression, surface fitting and a least-squares support vector machine, are established based on the optimal deterministic reservoir operation. These individual models provide three-member decisions for the BMA combination, enabling the 90% release interval to be estimated by the Markov Chain Monte Carlo simulation. A case study of China’s the Baise reservoir shows that: (1) the optimal deterministic reservoir operation, superior to any reservoir operating rules, is used as the samples to derive the rules; (2) the least-squares support vector machine model is more effective than both piecewise linear regression and surface fitting; (3) BMA outperforms any individual model of operating rules based on the optimal trajectories. It is revealed that the proposed model can reduce the uncertainty of operating rules, which is of great potential benefit in evaluating the confidence interval of decisions.
ISSN:0022-1694
1879-2707
DOI:10.1016/j.jhydrol.2015.06.041