1) variable neighborhood
变邻域
1.
Adaptive variable neighborhood chaos search PSO.;
自适应变邻域混沌搜索微粒群算法
2) heuristic border upon mutation
邻域变异
1.
At first according to the value of individual fitness, the adaptive crossover and adaptive mutation are performed,and heuristic border upon mutation can speed up the anagenesis.
首先根据个体适应度值进行自适应交叉和变异操作,并采用启发式二次邻域变异的方法,使个体的进化更符合无功优化问题的实际,然后运用模拟退火进行个体更新,以便增加群的多样性,避免陷入局部最优;最后将所得最优解作为禁忌搜索的初始解,进行局部寻优求解过程。
3) variable neighborhood search
变邻域搜索
1.
A variable neighborhood search operator and an inversion operator were used to keep the diversity of swarm and improve the algo.
采用变邻域搜索算子和逆序算子来保持粒子群的多样性和提高算法的局部求精能力,使算法在空间探索和局部求精间取得了较好的平衡。
2.
A niche genetic algorithm combined with variable neighborhood search was proposed herein to solve the flow path design of unidirectional AGV systems.
提出一种变邻域搜索与小生境遗传算法结合的混合遗传算法,并采用该算法进行单向AGV路径网络设计。
3.
Aiming at Flowshop scheduling problem with limited waiting time,a Hybrid Genetic Algorithm(HGA) combined with constraint satisfaction and variable neighborhood search is proposed.
针对等待时间受限的Flowshop调度问题,提出嵌入约束满足和变邻域搜索技术的混合遗传算法。
4) variable neighborhood descent
变邻域下降
1.
A guided local search algorithm which is combined with variable neighborhood descent algorithm is presented to tackle the independent tasks assignment problem in heterogeneous environments.
针对异构环境下的独立任务分配问题,结合变邻域下降算法,提出了一种导引式局部搜索算法。
5) VNS
变邻域搜索
1.
Based on the characteristics of this problem,a modified variable neighborhood search method(VNS)is proposed for solving it.
针对推广模型的特点,提出了一种变邻域搜索(VNS)方法进行求解。
2.
To the characters of the model,the improved variable neighbourhood search (VNS) algorithm is proposed for solving the problem.
针对模型特点,设计了改进变邻域搜索的模型求解算法,算法采用模拟退火的Metropolis准则,防止算法陷入局部最优。
6) varying neighborhood
变邻域结构
1.
Then the tabu search algorithm of varying neighborhood is applied to improving the last solution.
算法结合了调度规则和禁忌搜索算法的优点,首先利用调度规则构造较好的初始解,既可以加快禁忌搜索算法的收敛速度,也可以降低整个算法的运算量,使算法有更好的工程实用性;然后使用变邻域结构的禁忌搜索算法改进当前解。
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