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[ActiveX/DCOM/ATLlcs

Description: LCS Longest (maximum) common subsequence -LCS Longest (maximum) common subsequence
Platform: | Size: 1024 | Author: 鲁剑锋 | Hits:

[Mathimatics-Numerical algorithmsLCS

Description: 在C++环境下开发的最长公共子序列算法,可以下下来试试看-In C++ development environment, the longest common subsequence algorithm can try the next down
Platform: | Size: 565248 | Author: Nango | Hits:

[matlabasymppdc

Description: 这是第一版的AsymPDC工具包。用来处理PDC,gPDC和iPDC有关内容。运行环境为Matlab,并且要求至少Matlab中预装了3个工具箱:控制系统,信号处理和统计工具箱。-This is the first public release of AsympPDC package. It deals with the asymptotic statistics for PDC, gPDC and iPDC. AsympPDC runs under Matlab and is a practically self-contained except for requires routines from three Matlab toolboxes: Control System, Signal Processing, and Statistical. It is not extensively tested yet. It was partially tested under Windows, Macintosh and Linux environments with Matlab version 7.0 and higher. Please report any incompatibility to ksameshi[at]usp.br or baccala[at]lcs.poli.usp.br. Additionally for cosmetic purposes, the pdc_xplot routine uses several Matlab users contributed codes: subplot2.m (modified old version of supbplot to control spacing between subplots), shadedplot.m (developed by Dave Van Tol), suplabel.m (for label and title plotting in subplot figures, by Ben Barrowes), suptitle.m (contributed by Drea Thomas, for adding title above all subplots), and tilefigs.m (for tiling figures for simultaneous visualization, by Charles Plum)
Platform: | Size: 604160 | Author: 罗巍巍 | Hits:

[matlabLCS-Matlab-Kit-Version-1.0

Description: It enables users to input a time-series of 2-D velocity field data (e.g., DPIV measurements or CFD calculations) and compute the corresponding finite-time Lyapunov exponent (FTLE) fields, which Lagrangian Coherent Structures (LCS) suchas vortices and fluid transport barriers can be identified.- It enables users to input a time-series of 2-D velocity field data (e.g., DPIV measurements or CFD calculations) and compute the corresponding finite-time Lyapunov exponent (FTLE) fields, which Lagrangian Coherent Structures (LCS) suchas vortices and fluid transport barriers can be identified.
Platform: | Size: 168960 | Author: yuanke | Hits:

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