吉林大学学报(地球科学版)
吉林大學學報(地毬科學版)
길림대학학보(지구과학판)
Journal of Jilin University (Earth Science Edition)
2015年
5期
1485-1492
,共8页
吴鸣%吴剑锋%施小清%刘杰%陈干%吴吉春
吳鳴%吳劍鋒%施小清%劉傑%陳榦%吳吉春
오명%오검봉%시소청%류걸%진간%오길춘
谐振子遗传算法%遗传算法%模拟谐振子算法%地下水管理模型%全局搜索能力%寻优效率%华北平原
諧振子遺傳算法%遺傳算法%模擬諧振子算法%地下水管理模型%全跼搜索能力%尋優效率%華北平原
해진자유전산법%유전산법%모의해진자산법%지하수관리모형%전국수색능력%심우효솔%화북평원
harmonic oscillator genetic algorithm%genetic algorithm%simulated harmonic oscillator algorithm%groundwater management model%global searching ability%optimization efficiency%North China Plain (NCP)
在传统遗传算法和模拟谐振子算法的基础上,结合两者的优点,提出了一种新型快速高效的谐振子遗传算法。通过一个理想的水资源管理模型的算例和一个华北平原典型区地下水资源优化的实际算例,从寻优结果和寻优效率两个方面对谐振子遗传算法、传统遗传算法和模拟谐振子算法进行了对比分析。在两个地下水管理模型中,与传统的遗传算法和模拟谐振子算法相比,新型的谐振子遗传算法搜索效率达到模拟谐振子算法搜索效率的2倍以上,得到的最优解比遗传算法所得到的最优解分别增加供水量1.1×103 m3/d 和0.47×108 m3/a ,说明谐振子遗传算法具有更强的全局搜索能力和更好的寻优效率。
在傳統遺傳算法和模擬諧振子算法的基礎上,結閤兩者的優點,提齣瞭一種新型快速高效的諧振子遺傳算法。通過一箇理想的水資源管理模型的算例和一箇華北平原典型區地下水資源優化的實際算例,從尋優結果和尋優效率兩箇方麵對諧振子遺傳算法、傳統遺傳算法和模擬諧振子算法進行瞭對比分析。在兩箇地下水管理模型中,與傳統的遺傳算法和模擬諧振子算法相比,新型的諧振子遺傳算法搜索效率達到模擬諧振子算法搜索效率的2倍以上,得到的最優解比遺傳算法所得到的最優解分彆增加供水量1.1×103 m3/d 和0.47×108 m3/a ,說明諧振子遺傳算法具有更彊的全跼搜索能力和更好的尋優效率。
재전통유전산법화모의해진자산법적기출상,결합량자적우점,제출료일충신형쾌속고효적해진자유전산법。통과일개이상적수자원관리모형적산례화일개화북평원전형구지하수자원우화적실제산례,종심우결과화심우효솔량개방면대해진자유전산법、전통유전산법화모의해진자산법진행료대비분석。재량개지하수관리모형중,여전통적유전산법화모의해진자산법상비,신형적해진자유전산법수색효솔체도모의해진자산법수색효솔적2배이상,득도적최우해비유전산법소득도적최우해분별증가공수량1.1×103 m3/d 화0.47×108 m3/a ,설명해진자유전산법구유경강적전국수색능력화경호적심우효솔。
Combining the advantages of conventional genetic algorithm (GA ) with simulated harmonic oscillator algorithm (SHOA ) , we put forward a new efficient harmonic oscillator genetic algorithm ( HOGA ) . Based on the application to an ideal test and an optimization test for the groundwater management model of a typical region in North China Plain (NCP) ,the comparisons among GA ,SHOA and HOGA are performed in respect both of the quality of optimal solutions and the efficiency of algorithmic optimization .Compared with GA and SHOA , HOGA achieves an efficiency over two times higher than SHOA .The best pumping schemes achieved by HOGA can increase water supply by 1 .1 × 103 m3 /d and 0 .47 × 108 m3 /a compared with the pumping schemes achieved by GA in the two groundwater management models .This reveals that HOGA has the best global searching ability with the highest optimization efficiency .The results suggest that the HOGA presented in this study be of extensive perspectives in application to multi‐dimensional and nonlinear groundwater management and optimization .