An uncertain structure for minimizing the conflict of exploitation policies in common pool groundwater resources

Water Science & Technology: Water Supply Pub Date : 2023-10-04 DOI:10.2166/ws.2023.254

Yaning Xu, Yi Mao, Yuezhong Fan

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Abstract

Abstract Creating a structure for allocating water from common pool resources is a serious problem in agricultural water management. In this research, an attempt has been made based on bi-objective optimization and the non-dominated theory to create the water allocation models for the cultivation pattern. The water allocated in each irrigation event was defined as the decision variable in this structure. Two objective functions include the following: (1) maximizing and minimizing the water allocation and (2) minimizing conflicts between beneficiaries in the Hebei Plain. Conflicts between beneficiaries were formulated based on the ratio between the crop area and water allocation and were defined by an inertia weight to increase its effect on the final iterations of the process. The Whale Optimization Algorithm was included as a bi-objective algorithm in the decision-making process. The number of decision variables and feasible domains in each decision model is different and creates a crowding distance for competition between operators. The results showed that the water allocation planning structure based on the evaluation index had the best solution front.

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最小化公共池地下水资源开采政策冲突的不确定结构

摘要农业用水管理中存在的一个重要问题是如何构建水资源分配结构。本研究尝试基于双目标优化和非支配理论，建立了该栽培模式的水分分配模型。每个灌溉事件分配的水量被定义为该结构中的决策变量。两个目标函数包括:(1)最大化和最小化水资源分配;(2)最小化河北平原受益者之间的冲突。受益人之间的冲突是根据作物面积和水资源分配的比例制定的，并通过惯性权重来定义，以增加其对该过程最终迭代的影响。将鲸鱼优化算法作为双目标算法纳入决策过程。每个决策模型中的决策变量和可行域的数量不同，使得操作者之间的竞争产生拥挤距离。结果表明，基于评价指标的水资源分配规划结构具有最优解前沿。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Water Science & Technology: Water Supply

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