An improved interval-based fuzzy credibility-constrained programming approach for supporting optimal irrigation water management under uncertainty

•An improved interval-based fuzzy credibility-constrained programming model is developed for irrigation water management.•It improves upon existing studies based on the deterministic CWPFs by using ICWPFs.•It explores weight coefficients of possibility and necessity to represent the various preferen...

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Published in:Agricultural water management Vol. 238; p. 106185
Main Authors: Zhang, Chenglong, Li, Xuemin, Guo, Ping, Huo, Zailin
Format: Journal Article
Language:English
Published: Elsevier B.V 01.08.2020
Subjects:
case studies
China
Credibility level
Decision making
Fuzzy mathematical programming
irrigation management
irrigation water
Irrigation water resources allocation
uncertainty
watersheds
Weight coefficient
China
Weight coefficient
Fuzzy mathematical programming
Irrigation water resources allocation
Decision making
Credibility level
ISSN:0378-3774, 1873-2283
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Abstract •An improved interval-based fuzzy credibility-constrained programming model is developed for irrigation water management.•It improves upon existing studies based on the deterministic CWPFs by using ICWPFs.•It explores weight coefficients of possibility and necessity to represent the various preferences of decision makers.•A higher weight coefficient and a lower credibility level under high water level will lead to a greater system benefits. In response to uncertainties and complexities in the irrigation water management systems, this study presents an improved interval-based fuzzy credibility-constrained programming (IIFCCP) model for optimizing the allocation of irrigation water resources under uncertainty. Mathematical techniques of interval parameter programming (IPP), improved fuzzy credibility-constrained programming (IFCCP) and interval crop water production functions (ICWPFs) are incorporated into a modeling framework for irrigation planning. Thus, this model has the following several advantages in irrigation water management. First, it can not only address interval and fuzzy uncertainties, but also analyze tradeoffs between irrigation water amount and agricultural production returns, to maximize the agricultural economic benefits. Second, it further improves upon existing studies on deterministic CWPFs by using the ICWPFs to reflect uncertain information in the practical applications. Third, it makes a novel attempt to explore weight coefficients (i.e. the proportion of possibility in estimating credibility) to represent various preferences of decision makers. Fourth, it provides more flexible strategies by considering various weight coefficients and credibility levels. Then, the proposed model is applied to a case study of irrigation water management in the middle reaches of the Heihe River Basin, northwest China. Therefore, optimal decision solutions for the allocation of irrigation water under different scenarios, i.e., the combinations of three water levels, four credibility levels and nine weight coefficients, will be obtained and analyzed. A greater system benefits will be achieved at a high weight coefficient and a low credibility level, especially weight coefficients are assigned as 0.8 and 0.9. Additionally, these solutions can provide detailed tradeoffs among system benefits, credibility levels and weight coefficients. Comparisons with the results from deterministic CWPFs and conventional FCCP method indicate that the IIFCCP method has an enhanced practical applicability in actual irrigation water management under uncertainty conditions in arid areas.
AbstractList •An improved interval-based fuzzy credibility-constrained programming model is developed for irrigation water management.•It improves upon existing studies based on the deterministic CWPFs by using ICWPFs.•It explores weight coefficients of possibility and necessity to represent the various preferences of decision makers.•A higher weight coefficient and a lower credibility level under high water level will lead to a greater system benefits. In response to uncertainties and complexities in the irrigation water management systems, this study presents an improved interval-based fuzzy credibility-constrained programming (IIFCCP) model for optimizing the allocation of irrigation water resources under uncertainty. Mathematical techniques of interval parameter programming (IPP), improved fuzzy credibility-constrained programming (IFCCP) and interval crop water production functions (ICWPFs) are incorporated into a modeling framework for irrigation planning. Thus, this model has the following several advantages in irrigation water management. First, it can not only address interval and fuzzy uncertainties, but also analyze tradeoffs between irrigation water amount and agricultural production returns, to maximize the agricultural economic benefits. Second, it further improves upon existing studies on deterministic CWPFs by using the ICWPFs to reflect uncertain information in the practical applications. Third, it makes a novel attempt to explore weight coefficients (i.e. the proportion of possibility in estimating credibility) to represent various preferences of decision makers. Fourth, it provides more flexible strategies by considering various weight coefficients and credibility levels. Then, the proposed model is applied to a case study of irrigation water management in the middle reaches of the Heihe River Basin, northwest China. Therefore, optimal decision solutions for the allocation of irrigation water under different scenarios, i.e., the combinations of three water levels, four credibility levels and nine weight coefficients, will be obtained and analyzed. A greater system benefits will be achieved at a high weight coefficient and a low credibility level, especially weight coefficients are assigned as 0.8 and 0.9. Additionally, these solutions can provide detailed tradeoffs among system benefits, credibility levels and weight coefficients. Comparisons with the results from deterministic CWPFs and conventional FCCP method indicate that the IIFCCP method has an enhanced practical applicability in actual irrigation water management under uncertainty conditions in arid areas.
In response to uncertainties and complexities in the irrigation water management systems, this study presents an improved interval-based fuzzy credibility-constrained programming (IIFCCP) model for optimizing the allocation of irrigation water resources under uncertainty. Mathematical techniques of interval parameter programming (IPP), improved fuzzy credibility-constrained programming (IFCCP) and interval crop water production functions (ICWPFs) are incorporated into a modeling framework for irrigation planning. Thus, this model has the following several advantages in irrigation water management. First, it can not only address interval and fuzzy uncertainties, but also analyze tradeoffs between irrigation water amount and agricultural production returns, to maximize the agricultural economic benefits. Second, it further improves upon existing studies on deterministic CWPFs by using the ICWPFs to reflect uncertain information in the practical applications. Third, it makes a novel attempt to explore weight coefficients (i.e. the proportion of possibility in estimating credibility) to represent various preferences of decision makers. Fourth, it provides more flexible strategies by considering various weight coefficients and credibility levels. Then, the proposed model is applied to a case study of irrigation water management in the middle reaches of the Heihe River Basin, northwest China. Therefore, optimal decision solutions for the allocation of irrigation water under different scenarios, i.e., the combinations of three water levels, four credibility levels and nine weight coefficients, will be obtained and analyzed. A greater system benefits will be achieved at a high weight coefficient and a low credibility level, especially weight coefficients are assigned as 0.8 and 0.9. Additionally, these solutions can provide detailed tradeoffs among system benefits, credibility levels and weight coefficients. Comparisons with the results from deterministic CWPFs and conventional FCCP method indicate that the IIFCCP method has an enhanced practical applicability in actual irrigation water management under uncertainty conditions in arid areas.
ArticleNumber 106185
Author Guo, Ping
Huo, Zailin
Zhang, Chenglong
Li, Xuemin
Author_xml – sequence: 1
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  givenname: Zailin
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  email: huozl@cau.edu.cn
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Keywords Weight coefficient
Fuzzy mathematical programming
Irrigation water resources allocation
Decision making
Credibility level
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Snippet •An improved interval-based fuzzy credibility-constrained programming model is developed for irrigation water management.•It improves upon existing studies...
In response to uncertainties and complexities in the irrigation water management systems, this study presents an improved interval-based fuzzy...
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SubjectTerms case studies
China
Credibility level
Decision making
Fuzzy mathematical programming
irrigation management
irrigation water
Irrigation water resources allocation
uncertainty
watersheds
Weight coefficient
Title An improved interval-based fuzzy credibility-constrained programming approach for supporting optimal irrigation water management under uncertainty
URI https://dx.doi.org/10.1016/j.agwat.2020.106185
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