1) microcanonical annealing algorithm
微正则退火算法
1.
An improved microcanonical annealing algorithm for vehicle routing problem
车辆路径问题的改进微正则退火算法
2) microcanonical annealing
微正则退火
1.
In order to utilize the available frequencies efficiently in cellular mobile communication network,a frequency assignment method based on microcanonical annealing algorithm was proposed.
为了提高蜂窝移动通信网中频率资源的利用效率,提出了一种基于微正则退火算法的频率分配方法。
3) annealing algorithm
退火算法
1.
A new collateral production scheduling method based on the genetic algorithm is presented, by improving the genetic algorithm with annealing algorithm.
应用退火算法对遗传算法进行了改进,克服了遗传算法自身的很多缺点,提出了一种基于改进遗传算法的并行生产调度的方法。
4) simulated annealing
退火算法
1.
Based upon simulated annealing algorithm,we will discuss two solutions of obtaining the ideal thinned array.
本文介绍了圆环天线阵二维综合孔径微波辐射计的测量原理和反演算法,并通过模拟退火算法讨论了两种二维综合孔径微波辐射计圆环阵的稀疏方案,一种方案利用天线旋转,在半圆周上稀疏天线;另一种方案通过将空间频率采样点的均匀分布作为优化的约束条件,在全圆周上稀疏天线。
2.
A new hybrid genetic algorithm which marries greedy algorithm with simulated annealing algorithm is proposed.
提出了一种将贪婪算法和退火算法相结合的新型混合遗传算法,提高了算法的收敛速度,同时避免了遗传算法中存在早熟收敛的问题。
5) simulated annealing algorithm
退火算法
1.
GSAA combines simulated annealing algorithm with genetic algorithm to optimize network loading balance.
为均衡网络负载,提高网络节点工作性能,建立了基于遗传模拟退火算法的网络负载均衡数学模型,提出将遗传模拟退火算法应用于寻优网络负载均衡的算法GSAA。
2.
Due to genetic algorithm is easy to prematurely converge, so this thesis bring in another kind of optimization algorithm—the Simulated Annealing Algorithm together with Hidden Markov Models, to fin
由于GA容易过早收敛,本文引入另一种优化算法—模拟退火算法(Simulated Annealing Algorithm,SA)与HMM结合,找出最优HMM的初始参数,给出了基于SA-HMM的web信息抽取的整体框架,然后比较GA和SA这两个优化算法的实验效果。
3.
According to the requirement and the character of association rule mining,combined with the advantage of genetic algorithm,simulated annealing algorithm,and immune algorithm,a mining method of association rules was proposed.
根据关联规则挖掘的要求与特点,结合免疫算法,遗传算法和模拟退火算法的优点,提出一个基于免疫遗传退火算法的Web关联规则挖掘方法。
6) orthogonal niching genetic simulated annealing algorithm
正交小生境遗传模拟退火算法
补充资料:微正则系综
见统计物理学。
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