Review: Optimization methods for groundwater modeling and management

Yeh, William W-G.

Review: Optimization methods for groundwater modeling and management | Revue: Méthodes d’optimisation pour la modélisation et la gestion des eaux souterraines Revisión: Métodos de optimización para el modelado y manejo del agua subterránea 综述:地下水模拟和管理的最优化方法 Revisão: Métodos de otimização para modelagem e gerenciamento de águas subterrâneas

2015

Yeh, William W-G.

Optimization methods have been used in groundwater modeling as well as for the planning and management of groundwater systems. This paper reviews and evaluates the various optimization methods that have been used for solving the inverse problem of parameter identification (estimation), experimental design, and groundwater planning and management. Various model selection criteria are discussed, as well as criteria used for model discrimination. The inverse problem of parameter identification concerns the optimal determination of model parameters using water-level observations. In general, the optimal experimental design seeks to find sampling strategies for the purpose of estimating the unknown model parameters. A typical objective of optimal conjunctive-use planning of surface water and groundwater is to minimize the operational costs of meeting water demand. The optimization methods include mathematical programming techniques such as linear programming, quadratic programming, dynamic programming, stochastic programming, nonlinear programming, and the global search algorithms such as genetic algorithms, simulated annealing, and tabu search. Emphasis is placed on groundwater flow problems as opposed to contaminant transport problems. A typical two-dimensional groundwater flow problem is used to explain the basic formulations and algorithms that have been used to solve the formulated optimization problems.

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