引用本文:张晓盼,齐 欢,袁晓辉.三峡工程两坝联合通航调度的混合模拟退火算法[J].控制理论与应用,2008,25(4):708~710.[点击复制]
ZHANG Xiao-pan,QI Huan,YUAN Xiao-hui.Hybrid simulated annealing algorithm on navigation co-scheduling to the two dams of the three gorges project[J].Control Theory and Technology,2008,25(4):708~710.[点击复制]
三峡工程两坝联合通航调度的混合模拟退火算法
Hybrid simulated annealing algorithm on navigation co-scheduling to the two dams of the three gorges project
摘要点击 1495  全文点击 1288  投稿时间:2006-05-26  修订日期:2007-05-09
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DOI编号  
  2008,25(4):708-710
中文关键词  三峡工程  联合通航调度  多目标规划  模拟退火
英文关键词  The Three Gorges Project  navigation co-scheduling  multi-objective programming  simulated annealing
基金项目  国家自然科学基金资助项目(50779020, 60574025).
作者单位E-mail
张晓盼 华中科技大学 系统工程研究所, 湖北 武汉 430074 zxp.china@gmail.com 
齐 欢 华中科技大学 系统工程研究所, 湖北 武汉 430075  
袁晓辉 华中科技大学 水电与数字化工程学院, 湖北 武汉 430074  
中文摘要
      对三峡大坝和葛洲坝的一共5座船闸进行统一的船舶通航调度管理, 是提高长江三峡水域航运能力的关键,然而其优化调度算法还缺乏必要的研究. 本文首先提出了该问题的混合整数非线性规划模型, 在实际通航调度环境中, 该模型属于强NP-hard复杂度的大规模组合优化问题, 因此设计了一种混合模拟退火算法来搜索次优化调度方案, 该算法将解分解为闸次时间表和船舶调度计划两部分, 在搜索过程中用启发式规则对闸次时间表进行调整, 然后用深度优先搜索(DFS)算法根据闸次时间表求解船舶调度计划, 最后根据Metropolis规则对当前解进行更新.针对实际通航数据的测试结果表明其优化效果明显优于原有的启发式算法. 目前该算法已经成功地应用于实际的两坝联合通航调度系统中.
英文摘要
      A mixed-integer nonlinear programming model is proposed to improve the transportation capacity of the 5 locks in the Three Gorges Dam and the Gezhouba Dam. Since the model is a large scale and NP-hard combinational optimization problem in the real navigation environment, a hybrid simulated annealing algorithm is employed to search the suboptimal solution composed of a lockage timetable and a ship scheduling, The search starts by trimming the existing lockage timetable based on heuristic rules; the result is then used to compute the ship scheduling by the depth-first-search (DFS) algorithm. The obtained solution is finally updated by the Metropolis rule. The experimental test in real navigation conditions shows that the algorithm is more desirable than the original heuristic approach. This algorithm has been successfully put in the real navigation co-scheduling system for operation.