Your search keyword '"Luo, Jungang"' showing total 3 results

1. A dynamic multi-objective optimization model with interactivity and uncertainty for real-time reservoir flood control operation.

Author

Liu, Xiaolin and Luo, Jungang

Subjects

*FLOOD control, *PROCESS optimization, *RESERVOIRS, *UNCERTAINTY, *DYNAMIC models

Abstract

• A dynamic multi-objective model is developed for reservoir flood control. • The proposed model considers the environment uncertainty and the interactivity. • An algorithmic framework of optimizers for the proposed model is proposed. • Two change reaction strategies are developed for adapting the environment change. Despite the successes of both multi-objective optimization and uncertainty handling techniques in reservoir flood control operation, no work has been done yet on developing and investigating dynamic multi-objective optimization models for this problem. In this work, a dynamic multi-objective optimization model with interactivity and uncertainty was developed for the real-time reservoir flood control operation. Accordingly, a dynamic multi-objective optimization algorithmic framework with two newly designed change reaction strategies was proposed for solving the proposed dynamic model. Following the proposed algorithmic framework, any evolutionary multi-objective optimization algorithm can be converted into a dynamic optimizer. After investigating the difficulty variation of the proposed dynamic model, the effectiveness and robustness of the proposed algorithmic framework have been validated based on experiential studies on two typical floods of Ankang reservoir. [ABSTRACT FROM AUTHOR]

Published

2019

2. Optimal reservoir flood operation using a decomposition-based multi-objective evolutionary algorithm.

Author

Zhang, Xiao, Luo, Jungang, Sun, Xiaomei, and Xie, Jiancang

Subjects

*FLOOD control, *DIFFERENTIAL evolution, *EVOLUTIONARY algorithms, *RESERVOIRS, *WATER supply management

Abstract

Reservoir flood control operation (RFCO) is a challenging optimization problem with interdependent decision variables and multiple conflicting criteria. By considering safety both upstream and downstream of the dam, a multi-objective optimization model is built for RFCO. To solve this problem, a multi-objective optimizer, the multi-objective evolutionary algorithm based on decomposition-differential evolution (MOEA/D-DE), is developed by introducing a differential evolution-inspired recombination into the algorithmic framework of the decomposition-based multi-objective optimization algorithm, which has been proven to be effective for solving complex multi-objective optimization problems. Experimental results on four typical floods at the Ankang reservoir illustrated that the suggested algorithm outperforms or performs as well as the comparison algorithms. It can significantly reduce the flood peak and also guarantee the dam’s safety. [ABSTRACT FROM AUTHOR]

Published

2019

3. A hybrid multi-objective PSO–EDA algorithm for reservoir flood control operation.

Author

Luo, Jungang, Qi, Yutao, Xie, Jiancang, and Zhang, Xiao

Subjects

HYBRID computers (Computer architecture), PARTICLE swarm optimization, COMPUTER algorithms, FLOOD control, PROBLEM solving

Abstract

Reservoir flood control operation (RFCO) is a complex multi-objective optimization problem (MOP) with interdependent decision variables. Traditionally, RFCO is modeled as a single optimization problem by using a certain scalar method. Few works have been done for solving multi-objective RFCO (MO-RFCO) problems. In this paper, a hybrid multi-objective optimization approach named MO-PSO–EDA which combines the particle swarm optimization (PSO) algorithm and the estimation of distribution algorithm (EDA) is developed for solving the MO-RFCO problem. MO-PSO–EDA divides the particle population into several sub-populations and builds probability models for each of them. Based on the probability model, each sub-population reproduces new offspring by using PSO based and EDA methods. In the PSO based method, a novel global best position selection method is designed. With the help of the EDA based reproduction, the algorithm can lean linkage between decision variables and hence have a good capability of solving complex multi-objective optimization problems, such as the MO-RFCO problem. Experimental studies on six benchmark problems and two typical multi-objective flood control operation problems of Ankang reservoir have indicated that the proposed MO-PSO–EDA performs as well as or superior to the other three competitive multi-objective optimization algorithms. MO-PSO–EDA is suitable for solving MO-RFCO problems. [ABSTRACT FROM AUTHOR]

Published

2015