资源列表
rlsFIR
- FIR滤波器的rls实现过程,运用matlab实现的
kmt
- 用c++实现的KMP算法。很高效很实用的哦-Using c++ to achieve the KMP algorithm. Very efficient practical Oh
sqlist
- 顺序表的基本操作,插入,删除和输入输出等操作-The basic operation of the order of the table, insert, delete, and input and output and other operations. . . . . . .
m
- 输入广义表表示法表示的二叉树的字符串,以#作为字符串结束标志,将广义表形式的字符串创建为链式存储结构的二叉树,并先序、中序和后序遍历该二叉树,输出先序、中序和后序遍历的序列 -Enter the generalized form of binary notation string, with# as a string end marker, the generalized form of the string table storage structure to create the binar
Hanoi
- 用c实现汉诺塔,利用了函数的递归调用及相关数据结构的知识。-Tower of Hanoi with c implementation, using a recursive function calls and associated data structure knowledge.
send-and-receive
- 此文件包含两个程序段,其一是实现自发自收;其二是实现全双工通信。结合KEIL软件与单片机工具箱。-This file contains two paragraph, one is to realize the spontaneous charge The second is to realize full-duplex communication. KEIL software and single chip microcomputer with tool kit.
Dijkstra
- dikastra算法函数,运行时调用函数即可,注意函数说明-dikastra algorithm function run function is called to attention to the function descr iption
pianzuixiao
- 基于MATLAB的偏最小二乘回归分析算法,拟合较为准确-Based on MATLAB algorithm partial least squares regression analysis, fitting more accurate
windows
- 最速梯度下降和广义逆最小二乘求解感知机,可以调的参数有迭代下降的因子还有广义逆求解时的向量b。-Steepest gradient descent and generalized least squares for solving inverse Perceptron, you can adjust the parameters as well as iterative decrease factor when solving generalized inverse vector b.
磁力计24位置落差补偿
- (1)磁力计经过24位置罗差补偿后,可以精准测量平面内载体0°~360°角度变化值;(2)角度误差=测量值-真实值;(3)角度误差,通过2阶或者3阶来实现拟合,拟合阶数越高,补偿效果就越好,但MCU的计算量随之增加。
磁力计24位置罗差补偿
- (1)磁力计经过24位置罗差补偿后,可以精准测量平面内载体0°~360°角度变化值;(2)角度误差=测量值-真实值;(3)角度误差,通过2阶或者3阶来实现拟合,拟合阶数越高,补偿效果就越好,但MCU的计算量随之增加。
磁力计24位置落差补偿
- (1)磁力计经过24位置罗差补偿后,可以精准测量平面内载体0°~360°角度变化值;(2)角度误差=测量值-真实值;(3)角度误差,通过2阶或者3阶来实现拟合,拟合阶数越高,补偿效果就越好,但MCU的计算量随之增加。