资源列表
bpxor
- 用bp网络对xor问题的解析,比较基础,希望对大家有帮助-Xor network with bp analytical, comparative basis, in the hope that we have to help
shujuwajuesuanfa
- 基于数据挖掘的决策树改进算法和贝叶斯改进算法,很有用的-Based on data mining and Bayesian Decision Tree Algorithm to improve the algorithm, very useful
osake
- 一个833分酒问题的求解,C++编写,简单易读,输出最佳路径解。-833 minutes a solution of alcohol problems, C++ To prepare, easier to read, output the best path to solution.
ST
- RMQ问题。。 不用线段树实现。 ST算法运用的是动态规划和二进制优化的思想。使得编程复杂度降低了很多很多。-RMQ problem. . Needless to achieve segment tree. ST algorithm used is a dynamic planning and optimization of binary thinking. Makes programming reduces the complexity of many.
cversion
- 一些常用数值算法的 C程序源代码 对初级学数值计算很有帮助-Some commonly used numerical algorithm of the C source code for the numerical calculation of primary school very helpful
knapsack
- 程序设计思路 在动态规划中,可将一个问题的解决方案视为一系列决策的结果,要考察每个最优决策序列中是否包含一个最优子序列。所以在最短路径问题中,假如在的第一次决策时到达了某个节点v,那么不管v 是怎样确定的,此后选择从v 到d 的路径时,都必须采用最优策略。利用最优序列由最优子序列构成的结论,可得到f 的递归式。f ( 1 ,c) 是初始时背包问题的最优解。可使用(1)中所示公式通过递归或迭代来求解f ( 1 ,c)。从f (n, * )开始迭式, f (n, * )由第一个式子得出,然后由
DijkstraTest
- Dijkstra算法及demo实现,目前10万点,20条边,平均搜索时间为3.7秒.-Dijkstra algorithm and the realization demo now 100,000 points, 20 edges, the average search time of 3.7 seconds.
prog1
- 此代码展示了Euler计算方法与差分方法-This code demonstrates Euler difference method and calculation method
prog3
- 此代码展示了Euler计算方法与差分方法-This code demonstrates Euler difference method and calculation method
prog4
- 此代码展示了Euler计算方法与差分方法-This code demonstrates Euler difference method and calculation method
prog5
- 此代码展示了Euler计算方法与差分方法-This code demonstrates Euler difference method and calculation method
haha
- 牛顿迭代法 需要的同学尽量来拿吧 不要钱-Newton iteration needs of students as far as possible it should not来拿money