多模式匹配算法——AC算法 参考文献:AC算法:Aho A V,Corasick M J.Efficient string matching:an aid to bibliographic search.Communications of ACM,1975,18(6):333~340
上传时间: 2013-12-02
上传用户:cjl42111
JaNet: Java Neural Network Toolkit resume: A well documented toolkit for designing and training, and a java library for inclusion in third party programs. description: jaNet package is a java neural network toolkit, which you can use to design, test, train and optimize an ideal Neural Network for your private application. You can then include your saved network in your program using the jaNet.backprop package. The consequent documentation is only in french for the moment, but an english translation is planned. The java source code is released under GPL, and can be compiled with JDK, Symantec Cafe or MS Visual J
标签: documented designing training Network
上传时间: 2016-04-15
上传用户:zhanditian
BT JAVA LIBRARY,BTLib package is a J2ME Bluetooth library usefull when developing applications for Java, Bluetooth enabled mobile devices.
标签: applications developing Bluetooth LIBRARY
上传时间: 2016-04-22
上传用户:2525775
RMQ问题是指:对于长度为n的数列A,回答若干询问RMQ(A,i,j)(i,j<=n),返回数列A中下标在[i,j]里的最小值下标。
上传时间: 2013-12-26
上传用户:rocwangdp
Ex3-23 亲兄弟问题 « 问题描述: 给定n 个整数0 1 1 , , , n- a a a 组成的序列。序列中元素i a 的亲兄弟元素k a 定义为: min{ | } k i j n j j i a = a a ³ a < < 。 亲兄弟问题要求给定序列中每个元素的亲兄弟元素的位置。元素i a 的亲兄弟元素为k a 时,称k 为元素i a 的亲兄弟元素的位置。当元素i a 没有亲兄弟元素时,约定其亲兄弟元素 的位置为-1。 例如,当n=10,整数序列为6,1,4,3,6,2,4,7,3,5 时,相应的亲兄弟元素位 置序列为:4,2,4,4,7,6,7,-1,9,-1。 « 编程任务: 对于给定的n个整数0 1 1 , , , n- a a a 组成的序列,试用抽象数据类型栈,设计一个O(n) 时间算法,计算相应的亲兄弟元素位置序列。 « 数据输入: 由文件input.txt提供输入数据。文件的第1 行有1 个正整数n,表示给定给n个整数。 第2 行是0 1 1 , , , n- a a a 。 « 结果输出: 程序运行结束时,将计算出的与给定序列相应的亲兄弟元素位置序列输出到output.txt 中。 输入文件示例 输出文件示例 input.txt 10 4 2 4 4 7 6 7 -1 9 -1 output.txt 6 1 4 3 6 2 4 7 3 5
上传时间: 2013-12-17
上传用户:shizhanincc
A framework written in Java for implementing high-level and dynamic languages, compiling them into Java bytecodes. An implementation of Scheme, which is in the Lisp family of programming languages. Kawa is a featureful dialect in its own right, and additionally provides very useful integration with Java. It can be used as a “scripting language”, but includes a compiler and all the benefits of a “real” programming language, including optional static typing.
标签: implementing high-level framework compiling
上传时间: 2014-01-05
上传用户:libinxny
%radon transform clear all % N=800 n=1:N fs=200 t=n/fs x1=exp(j*2*pi*(5*t+0.5*5*t.^2)) x2=exp(j*2*pi*(5*t+0.5*15*t.^2)) x=x1+x2 %N=length(x) % ambifunb(x ) %*****************************************RAT naf=ambifunb(x) htl(abs(naf)) % [wh,rho,theta]=htl(abs(naf)) colormap([0,0,0]) % xlabel( 极半径 ) % ylabel( 角度 ) %**************************************%找出峰值点的坐标,计算初始频率和调频斜率(正确) %找出峰值点的坐标 b=max(max(wh)) [u,a]=find(wh>=0.8*b)
上传时间: 2014-10-27
上传用户:Yukiseop
This a very simple baseband simulator for SC-FDMA system. This simulator is part of the upcoming book “Single Carrier FDMA: A New Air Interface for Long Term Evolution” (Wiley, Nov. 2008) which I co-authored with professor David J. Goodman at Polytechnic University. The purpose of this simulator is to give some concrete idea of how SC-FDMA system works. It does lack many realistic and sophisticated features such as channel coding, time-varying fading channel model, soft decision decoding, etc. Regardless, I am hoping that it will help you understand SC-FDMA which is a fairly new development in 3GPP LTE.
标签: simulator This baseband upcoming
上传时间: 2016-08-26
上传用户:小草123
PRINCIPLE: The UVE algorithm detects and eliminates from a PLS model (including from 1 to A components) those variables that do not carry any relevant information to model Y. The criterion used to trace the un-informative variables is the reliability of the regression coefficients: c_j=mean(b_j)/std(b_j), obtained by jackknifing. The cutoff level, below which c_j is considered to be too small, indicating that the variable j should be removed, is estimated using a matrix of random variables.The predictive power of PLS models built on the retained variables only is evaluated over all 1-a dimensions =(yielding RMSECVnew).
标签: from eliminates PRINCIPLE algorithm
上传时间: 2016-11-27
上传用户:凌云御清风
两台处理机A 和B处理n个作业。设第i个作业交给机器 A 处理时需要时间ai,若由机器B 来处理,则需要时间bi。由于各作 业的特点和机器的性能关系,很可能对于某些i,有ai >=bi,而对于 某些j,j!=i,有aj<bj。既不能将一个作业分开由两台机器处理,也没 有一台机器能同时处理2 个作业。设计一个动态规划算法,使得这两 台机器处理完成这n 个作业的时间最短(从任何一台机器开工到最后 一台机器停工的总时间)。研究一个实例:(a1,a2,a3,a4,a5,a6)= (2,5,7,10,5,2);(b1,b2,b3,b4,b5,b6)=(3,8,4,11,3,4)
上传时间: 2014-01-14
上传用户:独孤求源