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Description: 一个由Mike Gashler完成的机器学习方面的includes neural net, naive bayesian classifier, decision tree, KNN, a genetic algorithm, and some manifold learning algorithms. -by Mike Gashler a complete machine learning includes the neur al net, naive bayesian classifier. decision tree, KNN, a genetic algorithm, manifold and some learning algorithms.
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Size: 1625645 |
Author: lyb |
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Description: 一个由Mike Gashler完成的机器学习方面的includes neural net, naive bayesian classifier, decision tree, KNN, a genetic algorithm, and some manifold learning algorithms. -by Mike Gashler a complete machine learning includes the neur al net, naive bayesian classifier. decision tree, KNN, a genetic algorithm, manifold and some learning algorithms.
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Size: 1625088 |
Author: lyb |
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Description: 各种数值算法,包括:二叉树、贪心算法、搜索算法、遗传算法、模拟退火算法、分治策略等等。-A variety of numerical algorithms, including: binary tree, greedy algorithm, search algorithm, genetic algorithm, simulated annealing algorithm, sub-rule tactics and so on.
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Size: 178176 |
Author: 张光炜 |
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Description: 稀疏矩阵、链表、图、队列、二叉树、多叉树、排序、遗传算法等的实现-Sparse matrix, list, map, queue, binary tree, multi-tree, sorting, genetic algorithm, such as the realization of
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Size: 491520 |
Author: liuyupeng |
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Description: 人工智能;进化算法;遗传算法(GA);多目标最小生成树-Artificial intelligence evolutionary algorithm genetic algorithm (GA) multi-objective minimum spanning tree
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Size: 22528 |
Author: Jiao |
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Description: 自己编的,在VB中实现普里姆最小生成树算法的代码,有图的,边的权值是随机生成的,5个节点,点“generate tree”,就会显示出最小树。-Own, and in VB in the minimum spanning tree algorithm prim implementation code, there is graph, edge weights are randomly generated, five nodes, point " generate tree" , will show the most trees.
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Size: 2048 |
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Description: JGAP是一种遗传算法和遗传规划的组成部分提供了一个Java框架。它提供了基本的遗传机制,可以很容易地用来申请进化原则问题的解决办法。见实例演示或观赏树的图形,可以创建JGAP找到解决办法的基因进化程序。-JGAP is a genetic algorithm and genetic programming an integral part of providing a Java framework. It provides basic genetic mechanisms, can easily be used to apply evolutionary principles of problem solutions. See examples of presentation or watching a tree graph, you can create a solution JGAP genetic evolutionary process.
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Size: 4858880 |
Author: Daniel.Shi |
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Description: 使用遗传算法求解最小生成树的编码,C++环境-Genetic Algorithm for Minimum Spanning Tree
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Size: 9216 |
Author: lee |
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Description: 【系统功能】
LL-路径优化系统主要用于求解已知坐标的规模为N的城镇间最短路径问题。
【主要算法】
1:利用Prim算法求解带约束条件的连通图的最小生成树;
2:利用基于单亲遗传算法求解带约束条件的TSP问题。
-【Function】 LL-path optimization system is mainly used to solve the known coordinates for the N scale of the problem of the shortest path between cities and towns. The main algorithm 【】 1: using Prim algorithm with constraint condition of the minimum spanning tree-connected graph 2: the use of genetic algorithm based on the single condition with the TSP problem.
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Size: 575488 |
Author: 张玉芨 |
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Description: 单点交叉
单点变异
确定式选择法
自适应的遗传算法生成最小树-Adaptive genetic algorithm generates minimum spanning tree
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Size: 5120 |
Author: yang |
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Description: 一个基于行为的分层结构多智能体足球仿真项目源码,获得过多次robocup比赛奖项.使用XML文件来作为运行时生成树型结构的配置文件。涉及到遗传算法,自动学习,概率分布等多方面内容。-A hierarchical behavior-based multi-agent soccer simulation project source code, access to many times robocup Competition awards. Using the XML file to generate the tree structure as a run-time configuration file. Related to genetic algorithms, automatic learning, probability distribution and many other elements.
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Size: 1828864 |
Author: yc |
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Description: matlab 遗传算法GA,粒子群算法PSO,蚁群算法AS
前段时间上智能计算方法实验课上,自己做的程序。帖到这里,希望有人能改进它们,交流经验这样更有价值。
遗传算法解决最小生成树问题,PURFER编码。
粒子群算法做无约束最优化问题。
蚁群算法解决TSP问题。
如果有宝贵经验希望能交流一下,谢谢,-matlab genetic algorithm GA, particle swarm optimization PSO, ant colony algorithm for calculation of AS some time ago on the intelligent test classes, make their own procedures. Quote here, hope someone can improve them, and exchange of experience which is more valuable. Genetic algorithm to solve the minimum spanning tree problem, PURFER coding. Particle swarm optimization to do unconstrained optimization problem. Ant colony algorithm to solve the TSP problem. If there is hope to exchange our experience, thank you, He He
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Size: 5120 |
Author: stephen |
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Description: matlab 遗传算法GA,粒子群算法PSO,蚁群算法AS
前段时间上智能计算方法实验课上,自己做的程序。帖到这里,希望有人能改进它们,交流经验这样更有价值。
遗传算法解决最小生成树问题,PURFER编码。
粒子群算法做无约束最优化问题。
蚁群算法解决TSP问题。
如果有宝贵经验希望能交流一下,谢谢,-matlab genetic algorithm GA, particle swarm optimization PSO, ant colony algorithm for calculation of AS some time ago on the intelligent test classes, make their own procedures. Quote here, hope someone can improve them, and exchange of experience which is more valuable. Genetic algorithm to solve the minimum spanning tree problem, PURFER coding. Particle swarm optimization to do unconstrained optimization problem. Ant colony algorithm to solve the TSP problem. If there is hope to exchange our experience, thank you, He He
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Size: 14336 |
Author: stephen |
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Description: 我备战2010数学建模美赛所精心准备的算法资料,一共13个算法。应该说是目前比较全的算法集了。每个算法由一个VC6例子实现,来解决一个问题。其中一些是自己编写,其它的也是由网上找到后经过修改编译通过的。比赛结果还不错,一个M,现在把资料共享出来,希望对大家有所帮助,算法主要有模拟退火,遗传算法,蒙特卡罗算法,蚁群算法,粒子群算法,元胞自动机,Dijkstra,最小生成树算法,二分图最大匹配算法,最大流算法,动态规划算法,分支定界法,排队论算法,决策论算法等,我写了个说明文件,列的挺详细的-I am preparing for 2010 U.S. race mathematical modeling algorithms are well-prepared data, a total of 13 algorithms. It should be said is a relatively wide set of algorithms. Each algorithm implementation from a VC6 example, to solve a problem. Some of which I have written, the other is modified by the web, compiled by the post. Results also good, a M, is now sharing the information out, we want to help, mainly simulated annealing algorithm, genetic algorithm, Monte Carlo algorithm, ant colony algorithm, particle swarm optimization, cellular automata, Dijkstra, minimum spanning tree algorithm, the maximum bipartite matching algorithm, maximum flow algorithm, dynamic programming, branch and bound method, queuing theory algorithms, decision theory algorithm, I wrote a documentation out very detailed
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Author: 一招鲜 |
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Description: 遗传算法在Steiner树中的应用
遗传算法的相关论文-In order tO solve the subject of Steiner minimum spanning tree,an adaptive genetic algorithm is introduced.The Steiner
minimum spanning tree is transformed into a combination-optimization problem and a triabselection method is proposed for the crea·
tion of the partial
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Size: 35840 |
Author: 利用 |
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Description: 基于新的树编码方式用免疫遗传算法解决DCMST问题:提出了一种新的树编码方式,可以方便地表达一棵树,简化了树在遗传算法中的编码表达。且新的树编码方式清楚地表达了边的信息,有利于疫苗的设计。此外,本文使用免疫遗传算法,有效地克服了传统遗传算法中解退化的现象。数值实验表明,解的振荡相对于传统遗传算法减小了,且收敛速度更快。-New tree-based encoding genetic algorithm with immune DCMST problem: A new tree encoding, you can easily express a tree, the tree simplifies the code in the expression of genetic algorithm. And new tree encoding side clearly expressed information is conducive to vaccine design. In addition, we use the genetic algorithm can effectively overcome the traditional genetic algorithm, the phenomenon of degradation in the solution. Numerical experiments show that the oscillation of solutions with respect to reducing the traditional genetic algorithm, and the convergence faster.
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Size: 5120 |
Author: LYC |
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Description: 利用图论中生成树的概念编写的全部生成树代码,由于缺少中间的实数编码遗传算法代码,所以还不能得出完整的结果,但整个程序框架是正确的!-Spanning tree in graph theory using the concept of writing all the spanning tree code, the lack of the middle of the real-coded genetic algorithm code, so it can not come to a complete results, but the whole process framework is correct!
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Size: 3072 |
Author: 小玉 |
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Description: 《集体智慧编程》这本书的源码,里面包含数据挖掘方面的一些算法,包括遗传算法,费舍尔算法,决策树等-" The collective wisdom of programming source code of this book, which contains the data mining aspects of algorithms, including genetic algorithms, Fisher algorithm, decision tree
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Size: 1215488 |
Author: 乐燕芳 |
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Description: In predicting electrical tree growth behavior of
practical insulation materials under operating voltages, one must
consider the effects of mechanical tensile residual stresses,
electrical field stresses and the voids distribution to the electrical
tree growth. In this study a general model of electrical tree
propagation is firstly proposed depend on voids location in the
polymer, combines both the mechanical tensile residual stresses
and the electrical field distribution in the medium using charge
simulation method in combined with genetic algorithms to
describe the local damage features around the tree tip, and
enables this effect of compressive to predict the electrical tree
dynamic growth. The obtained results have been assessed
through comparison with available experimental data
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Size: 1173504 |
Author: vetrivel |
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Description: Energy is one of the most important items to determine the network lifetime due to low power energy nodes included in the network. Generally, data aggregation tree concept is used to find an energy efficient solution. However, even the best aggregation tree does not share the load of data packets to the transmitting nodes fairly while it is consuming the lowest possible energy of the network. Therefore, after some rounds, this problem causes to consume the whole energy of some heavily loaded nodes and hence results in with the death of the network. In this paper, by using the Genetic Algorithm (GA), we investigate the energy efficient data collecting spanning trees to find a suitable route which balances the data load throughout the network and thus balances the residual energy in the network in addition to consuming totally low power of the network. Using an algorithm which is able to balance the residual energy among the nodes can help the network to withstand more and consequently extend its own lifetime. In this work, we calculate all possible routes represented by the aggregation trees through the genetic algorithm. GA finds the optimum tree which is able to balance the data load and the energy in the network. Simulation results show that this balancing operation practically increases the network lifetime.
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Author: atrakpc@yahoo.com |
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