论文信息 - An adaptive heuristic cross-entropy algorithm for optimal design of water distribution systems

An adaptive heuristic cross-entropy algorithm for optimal design of water distribution systems

The optimal design problem of a water distribution system is to find the water distribution system component characteristics (e.g. pipe diameters, pump heads and maximum power, reservoir storage volumes, etc.) which minimize the system's capital and operational costs such that the system hydraulic laws are maintained (i.e. Kirchhoff's first and second laws), and constraints on quantities and pressures at the consumer nodes are fulfilled. In this study, an adaptive stochastic algorithm for water distribution systems optimal design based on the heuristic cross-entropy method for combinatorial optimization is presented. The algorithm is demonstrated using two well-known benchmark examples from the water distribution systems research literature for single loading gravitational systems, and an example of multiple loadings, pumping, and storage. The results show the cross-entropy dominance over previously published methods.

A. Ostfeld | L. Perelman

[1] Lih-Yuan Deng,et al. The Cross-Entropy Method: A Unified Approach to Combinatorial Optimization, Monte-Carlo Simulation, and Machine Learning , 2006, Technometrics.

[2] U. Shamir,et al. Design of optimal water distribution systems , 1977 .

[3] Angus R. Simpson,et al. Ant Colony Optimization for Design of Water Distribution Systems , 2003 .

[4] R. Rubinstein. The Cross-Entropy Method for Combinatorial and Continuous Optimization , 1999 .

[5] Reuven Y. Rubinstein,et al. Modern simulation and modeling , 1998 .

[6] Reuven Y. Rubinstein,et al. Optimization of computer simulation models with rare events , 1997 .

[7] Dragan Savic,et al. Genetic Algorithms for Least-Cost Design of Water Distribution Networks , 1997 .

[8] Huaiyu Zhu. On Information and Sufficiency , 1997 .

[9] U. Shamir,et al. DECOMPOSITION TECHNIQUE FOR OPTIMAL DESIGN OF WATER SUPPLY NETWORKS , 1991 .

[10] D. B. Khang,et al. A two‐phase decomposition method for optimal design of looped water distribution networks , 1990 .

[11] Cheng Gengdong,et al. Optimal design of water distribution systems , 1989 .

[12] Andrew B. Templeman,et al. THE COMPUTATIONAL COMPLEXITY OF THE PROBLEM OF DETERMINING LEAST CAPITAL COST DESIGNS FOR WATER SUPPLY NETWORKS , 1984 .

[13] A. Cenedese,et al. Optimal design of water distribution networks , 1978 .