The weapon transportation support scheduling problem on aircraft carrier deck is the key to restricting the sortie rate and combat capability of carrier-based aircraft.This paper studies the problem and presents a nov...The weapon transportation support scheduling problem on aircraft carrier deck is the key to restricting the sortie rate and combat capability of carrier-based aircraft.This paper studies the problem and presents a novel solution architecture.Taking the interference of the carrier-based aircraft deck layout on the weapon transportation route and precedence constraint into consideration,a mixed integer formulation is established to minimize the total objective,which is constituted of makespan,load variance and accumulative transfer time of support unit.Solution approach is developed for the model.Firstly,based on modeling the carrier aircraft parked on deck as convex obstacles,the path library of weapon transportation is constructed through visibility graph and Warshall-Floyd methods.We then propose a bi-population immune algorithm in which a population-based forward/backward scheduling technique,local search schemes and a chaotic catastrophe operator are embedded.Besides,the randomkey solution representation and serial scheduling generation scheme are adopted to conveniently obtain a better solution.The Taguchi method is additionally employed to determine key parameters of the algorithm.Finally,on a set of generated realistic instances,we demonstrate that the proposed algorithm outperforms all compared algorithms designed for similar optimization problems and can significantly improve the efficiency,and that the established model and the bi-population immune algorithm can effectively respond to the weapon support requirements of carrier-based aircraft under different sortie missions.展开更多
目的针对当前物流背景下普遍出现的送货公司外包、退换货频繁等问题,结合现有的碳排放政策,提出低碳背景下开放式同时送取货选址−路径模型(Low-Carbon Open Location-routing Problem with Simultaneous Pickup and Delivery Problem,LO...目的针对当前物流背景下普遍出现的送货公司外包、退换货频繁等问题,结合现有的碳排放政策,提出低碳背景下开放式同时送取货选址−路径模型(Low-Carbon Open Location-routing Problem with Simultaneous Pickup and Delivery Problem,LOLRPSPD),并通过改进野马算法进行求解。方法首先设计一种新的解码方式,使得原离散问题可以采用连续算法求解。之后,运用哈尔顿序列生成初始解,改进非线性进化概率因子,使用模拟二进制交叉,增加变异操作,以及精英保留、设置连续失败重新初始化等步骤,改进野马算法。最后,通过6组不同大小的算例将改进野马算法与原始野马算法、模拟退火算法、粒子群算法、遗传算法进行对比。结果针对中大型算例,改进野马算法远超原始野马算法。针对小型算例,在确保准确率的同时,改进野马算法对比各经典算法也在速度上具有优势。结论提出的LOLRPSD模型具备合理性,改进的野马算法针对选址路径问题具有较好的搜索能力。展开更多
针对同时送取货的选址路径问题(Location-routing Problem with Simultaneous Pickup and Delivery,LRPSPD),设计一种改进烟花算法(Improved Firework Algorithm,IFWA)求解。首先,考虑仓库建设、车辆启用、车辆路径等成本因素,建立最小...针对同时送取货的选址路径问题(Location-routing Problem with Simultaneous Pickup and Delivery,LRPSPD),设计一种改进烟花算法(Improved Firework Algorithm,IFWA)求解。首先,考虑仓库建设、车辆启用、车辆路径等成本因素,建立最小成本的LRPSPD模型,该模型强调需求点的送货需求和取货需求只能由一辆车同时进行服务。其次,设计一种改进烟花算法,该算法结合贪心聚类算法生成初始解,由烟花爆炸算子操作生成邻域解,利用变异操作协助产生新种群。最后,通过使用混合免疫算法、模拟退火算法求解相同算例,对结果进行分析比较,验证模型的可行性和改进算法的有效性。展开更多
基金the financial support of the National Natural Science Foundation of China(No.52102453)。
文摘The weapon transportation support scheduling problem on aircraft carrier deck is the key to restricting the sortie rate and combat capability of carrier-based aircraft.This paper studies the problem and presents a novel solution architecture.Taking the interference of the carrier-based aircraft deck layout on the weapon transportation route and precedence constraint into consideration,a mixed integer formulation is established to minimize the total objective,which is constituted of makespan,load variance and accumulative transfer time of support unit.Solution approach is developed for the model.Firstly,based on modeling the carrier aircraft parked on deck as convex obstacles,the path library of weapon transportation is constructed through visibility graph and Warshall-Floyd methods.We then propose a bi-population immune algorithm in which a population-based forward/backward scheduling technique,local search schemes and a chaotic catastrophe operator are embedded.Besides,the randomkey solution representation and serial scheduling generation scheme are adopted to conveniently obtain a better solution.The Taguchi method is additionally employed to determine key parameters of the algorithm.Finally,on a set of generated realistic instances,we demonstrate that the proposed algorithm outperforms all compared algorithms designed for similar optimization problems and can significantly improve the efficiency,and that the established model and the bi-population immune algorithm can effectively respond to the weapon support requirements of carrier-based aircraft under different sortie missions.
文摘目的针对当前物流背景下普遍出现的送货公司外包、退换货频繁等问题,结合现有的碳排放政策,提出低碳背景下开放式同时送取货选址−路径模型(Low-Carbon Open Location-routing Problem with Simultaneous Pickup and Delivery Problem,LOLRPSPD),并通过改进野马算法进行求解。方法首先设计一种新的解码方式,使得原离散问题可以采用连续算法求解。之后,运用哈尔顿序列生成初始解,改进非线性进化概率因子,使用模拟二进制交叉,增加变异操作,以及精英保留、设置连续失败重新初始化等步骤,改进野马算法。最后,通过6组不同大小的算例将改进野马算法与原始野马算法、模拟退火算法、粒子群算法、遗传算法进行对比。结果针对中大型算例,改进野马算法远超原始野马算法。针对小型算例,在确保准确率的同时,改进野马算法对比各经典算法也在速度上具有优势。结论提出的LOLRPSD模型具备合理性,改进的野马算法针对选址路径问题具有较好的搜索能力。
文摘针对同时送取货的选址路径问题(Location-routing Problem with Simultaneous Pickup and Delivery,LRPSPD),设计一种改进烟花算法(Improved Firework Algorithm,IFWA)求解。首先,考虑仓库建设、车辆启用、车辆路径等成本因素,建立最小成本的LRPSPD模型,该模型强调需求点的送货需求和取货需求只能由一辆车同时进行服务。其次,设计一种改进烟花算法,该算法结合贪心聚类算法生成初始解,由烟花爆炸算子操作生成邻域解,利用变异操作协助产生新种群。最后,通过使用混合免疫算法、模拟退火算法求解相同算例,对结果进行分析比较,验证模型的可行性和改进算法的有效性。