1) VLSN
极大邻域搜索
1.
In the hub location model,we insert service frequency as decision variables,solve the problem with very large scale neighborhood search(VLSN) algorithm in the process of iteration,and determine the hubs of the intermodal freight network under the circumstances of service frequency unchanged and the freight assignments between hubs for different transport modes.
在枢纽选址模型中,将服务频率作为决策变量,在迭代过程中采用极大邻域搜索算法进行求解,最后在服务频率不变的情况下确定综合货运网络的枢纽及枢纽间不同运输方式的流量分配。
2) local search
邻域搜索
1.
An adaptive hybrid genetic algorithm was developed to solve VRPSDP,which used a special optimal splitting procedure to get the fitness values,and took a local search as the mutation operator.
该算法以最优划分方法计算适应值,邻域搜索法作为变异算子,设计了新颖的交叉算子和群体更新策略,定义了群体多样性结构和变异概率的变化规律。
2.
An improved algorithm,combined ant algorithm with local search,is put forward to reduce the inherent deficiency of traditional ant algorithm in solving JSP.
讨论了蚁群算法在车间作业调度问题中的应用,针对传统蚁群算法求解调度问题的不足,将邻域搜索与蚁群算法结合,通过实验验证了该混合算法的有效性和优化性。
3.
A new local search algorithm for solving the minimum make span problem of job shop scheduling is presented.
该文提出了一种新的求解工件车间调度(jobshopscheduling)问题的邻域搜索算法。
3) neighborhood search
邻域搜索
1.
Hybrid Constraint Satisfaction and Neighborhood Search Algorithm and its Application
约束满足与邻域搜索结合的混合算法及应用
2.
Then a fast neighborhood search algorithm was presented.
研究了无等待流水车间调度问题的快速邻域搜索技术,并将其分别用于加强粒子、个体极值或全体极值的邻域探索能力,得到了三种改进的离散粒子群优化算法。
3.
In accordance with the characteristic of NPhard,a mutation based on neighborhood search is proposed,and a hybrid genetic algorithm is also established,which used the idea of neighborhood search and combined the heuristic algorithm and genetic algorithm.
分析了资源受限项目调度问题,针对其具有NP hard的特点,提出了一种基于邻域搜索的混合遗传算法,将启发式算法与遗传算法相结合,用邻域搜索的思想进行变异操作。
4) Searching neighborhood
搜索邻域
5) Maximum-adjacent-search area
最大邻域搜索区域
6) very large scale neighborhood search (VLSN)
大规模邻域搜索技术
补充资料:超导电性的局域和非局域理论(localizedandnon-localizedtheoriesofsuperconductivity)
超导电性的局域和非局域理论(localizedandnon-localizedtheoriesofsuperconductivity)
伦敦第二个方程(见“伦敦规范”)表明,在伦敦理论中实际上假定了js(r)是正比于同一位置r的矢势A(r),而与其他位置的A无牵连;换言之,局域的A(r)可确定该局域的js(r),反之亦然,即理论具有局域性,所以伦敦理论是一种超导电性的局域理论。若r周围r'位置的A(r')与j(r)有牵连而影响j(r)的改变,则A(r)就为非局域性质的。由于`\nabla\timesbb{A}=\mu_0bb{H}`,所以也可以说磁场强度H是非局域性的。为此,超导电性需由非局域性理论来描绘,称超导电性的非局域理论。皮帕德非局域理论就是典型的超导电性非局域唯象理论。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条