LabVIEW 2009 Advanced Signal Processing Toolkit Win32ENG LabVIEW2009高级信号处理工具包ASPT2009 32位Windows英语版
Windows系统下(Linux和MAC系统下请自行了解清楚)NI的各种软件、模块、工具包、驱动程序,使用NI许可证管理器来激活的,绝大部分的都可以使用NI Lincense Activator来激活:NI序列号Serial Number生成激活工具NI License Activator,LabVIEW/VBAI/VDM/VAS等软件模块工具包破解工具不限版本http://visionbbs.com/thread-490-1-1.html视觉论坛的各种NI资源,除了视觉相关的模块有使用外,大部分的都不会使用,仅提供资源不提供技术支持。资源的下载地址一般会同时提供NI官方和百度网盘的地址。某些工具包NI地址失效或没有NI地址,只能使用百度网盘地址;如果百度网盘地址失效过期,可联系论坛客服更新。NI的服务器在美国,有时候速度很慢或下载容易出错,这样会造成安装时各种错误而无法安装。建议在下载完成后,对下载资源做校验和(NI一般会提供MD5或SHA256等)验证,与官方或视觉论坛提供的校验和对比,一致就可以安装;如不一致,则需要重新下载。视觉论坛早期下载上传的资源,基本上都是正常下载的资源;2019后下载的资源,都与NI的正确校验和对比过,保证是正确的资源才上传到百度网盘。校验和工具下载地址:文件Hash计算器FHash,文件校验和验证下载文件正确性验证,MD5值计算、SHA1值计算、SHA256值计算、CRC32值计算http://visionbbs.com/thread-26524-1-1.html
LabVIEW 2009 Advanced Signal Processing Toolkit Win32ENG LabVIEW2009高级信号处理工具包ASPT2009 32位Windows英语版
ASPT工具包,在2009到2017年版本之间,有64位的测试版,但是NI官方一直到APST2018才正式发布64位版本。我方视觉论坛提供了ASPT2009-APST2017的64位版本下载。具体的可在本论坛搜索相应的版本。
LabVIEW高级信号处理工具包是一组软件工具,可用于执行时频分析、时序分析和小波分析。
LabVIEW高级信号处理工具包是LabVIEW的一个附加软件,提供有时频分析、时序分析和小波分析工具。该附加工具内含LabVIEW数字滤波器设计工具包,您可单独购买这一工具包。为了有效地提取信号隐藏的信息,应选择适当的分析工具。您可以将时频分析工具用于具有缓慢变化的光谱内容的进化信号,用于静止信号的时间序列分析工具,以及用于描述短时事件的进化信号和瞬态信号的小波分析工具。您还可以将分析代码部署到NI实时嵌入式硬件。
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LabVIEW 2009 Advanced Signal Processing Toolkit ReadmeJune 2009This file contains information to introduce you to the LabVIEW Advanced Signal Processing Toolkit. This file also provides you with help resources you can use while working with the Advanced Signal Processing Toolkit. The file contains the following information that you need to understand.OverviewNew Features and ChangesSystem RequirementsInstallation InstructionsActivation NoticeUninstallation InstructionsDistributing Executable ApplicationsAccessing the HelpFinding ExamplesKnown IssuesBug FixesOverviewThe LabVIEW 2009 Advanced Signal Processing Toolkit is the upgrade version of the LabVIEW Advanced Signal Processing Toolkit 8.6.1. The Advanced Signal Processing Toolkit provides VIs for time frequency analysis, time series analysis, and wavelet analysis.Use the Time Frequency Analysis VIs to transform a time domain signal to a linear or quadratic time-frequency domain representation. You can extract useful information from the time-frequency domain representation of a signal, or you can process a time-frequency domain representation and reconstruct a time domain signal.Use the Time Series Analysis VIs to perform preprocessing, statistical analysis, correlation analysis, spectrum estimation, and model estimation on a univariate or multivariate (vector) time series. You can extract useful information from the time series with different analysis methods for different applications.Use the Wavelet Analysis VIs to perform transforms and inverse transforms between a signal and the wavelet coefficients of the signal. You can use the Feature Extraction VIs to perform denoising, detrending, probability density function estimation, peak detection, edge detection, and ridge detection on a 1D or 2D signal.New Features and Changes
[*]In the WA Multiscale Peak Detection VI, you can specify whether this VI detrends a signal before detecting peaks or valleys.
[*]Use the WA Get Coefficients of Discrete Wavelet Transform VI to retrieve specific coefficients that you compute from the discrete wavelet transform.
[*]Use the WA Get Coefficients of Integer Wavelet Transform VI to retrieve specific coefficients that you compute from the integer wavelet transform.
[*]Use the WA Get Coefficients of Undecimated Wavelet Transform VI to retrieve specific coefficients that you compute from the undecimated wavelet transform.
[*]Use the TSA Configure Cepstrogram Indicator VI and TSA Cepstrogram Indicator control to display the time-cepstrum of a univariate time series on an intensity graph.
[*]Use the TSA Get Time and Quefrency Scale Info VI to retrieve the time scale information and quefrency scale information of the time-quefrency representation.
[*]Use the TSA Set Time and Quefrency Scale Info VI to set the time scale information and quefrency scale information for the time-quefrency representation.
[*]You can customize the color table the TFA Configure Spectrogram Indicator VI uses to display the spectrogram of a signal on an intensity graph. Use the ignore timestamp? (F) control to specify whether this VI displays the timestamp of the input signal.
[*]You can customize the color table the WA Configure Scalogram Indicator VI uses to display the square magnitude or the phase of the wavelet coefficients on an intensity graph. Use the ignore timestamp? (F) control to specify whether this VI displays the timestamp of the input signal.
[*]You can use the biorthogonal wavelet types Bior5_5 and Bior6_8 for discrete wavelet analysis and reconstruction.
[*]In the Advanced Signal Processing Toolkit 8.6.1 and earlier, the TFA Adaptive Expansion VI contains the signal info control. In the Advanced Signal Processing Toolkit 2009, the TFA Adaptive Expansion VI does not contain the signal info control. This VI contains the sampling info control. The TFA Adaptive Transform VI contains the sampling info indicator. Use the sampling info control to specify the sampling information, such as sampling rate and length, of the reconstructed signal. The sampling info indicator returns the sampling information, such as sampling rate and length, of the signal.
[*]The TSA ARMA Modeling VI estimates the AR model of a time series if MA is zero and method is Yule-Walker.
System RequirementsThe computer you are using must meet the following minimum system requirements to run the Advanced Signal Processing Toolkit:
[*]Windows Vista/XP/2000
[*]200 MB free disk space
[*]LabVIEW 2009 Full or Professional Development System
Installation InstructionsYou can install all of your LabVIEW products—including the Advanced Signal Processing Toolkit—using the LabVIEW 2009 Platform DVDs. You can find installation instructions for the Advanced Signal Processing Toolkit along with activation instructions in the following locations:
[*]LabVIEW Release Notes, which are available in your LabVIEW software kit.
[*]LabVIEW 2009 Platform DVDs Readme, which is available on the top-level of LabVIEW Platform DVD 1.
To request additional LabVIEW 2009 Platform DVDs, refer to the National Instruments Web site.Activation NoticeTo activate the Advanced Signal Processing Toolkit, use the serial number you received with the software kit. You can find your serial number on the product packing slip or on the shipping label. The serial number activates the LabVIEW Advanced Signal Processing Toolkit and the LabVIEW Digital Filter Design Toolkit.Your purchase of the Advanced Signal Processing Toolkit enables you to use the LabWindows™/CVI™ Advanced Signal Processing Toolkit. To request the installation media for the LabWindows/CVI Advanced Signal Processing Toolkit, contact NI.Uninstallation InstructionsComplete the following steps to uninstall the Advanced Signal Processing Toolkit.
[*]Open the Add or Remove Programs dialog box from the Control Panel.
[*]Select National Instruments Software and click the Change button.
[*]Under NI Products, select NI LabVIEW Advanced Signal Processing Toolkit and click the Remove button.
Distributing Executable ApplicationsTo redistribute executable applications built with the Advanced Signal Processing Toolkit, install the Advanced Signal Processing Toolkit Run-Time Engine on the target machine. The Advanced Signal Processing Toolkit Run-Time Engine is located in the Distributions\Advanced Signal Processing Toolkit\Products\LabVIEW_ASPT_RTE folder on the LabVIEW Platform DVD. Run the aspt_rt_32bit.msi program in that folder to install the Advanced Signal Processing Toolkit Run-Time Engine for 32-bit Windows. Run the aspt_rt_64bit.msi program in that folder to install the Advanced Signal Processing Toolkit Run-Time Engine for 64-bit Windows.Accessing the HelpRefer to the LabVIEW Help, accessible by selecting Help»Search the LabVIEW Help from the pull-down menu in LabVIEW, for information about using the Advanced Signal Processing Toolkit.Finding ExamplesYou can access the examples for the Time Frequency Analysis Tools, the Time Series Analysis Tools, and the Wavelet Analysis Tools by selecting Help»Find Examples to display the NI Example Finder and then navigating to the Toolkits and Modules»Time Frequency Analysis, Toolkits and Modules»Time Series Analysis, and Toolkits and Modules»Wavelet Analysis folders, respectively. You also can click the Find Examples link in the Examples section of the Getting Started window to display the NI Example Finder. You can modify an example VI to fit an application, or you can copy and paste from one or more examples into a VI that you create.You also can find the examples for the Time Frequency Analysis Tools, the Time Series Analysis Tools, and the Wavelet Analysis Tools in the labview\examples\time frequency analysis, labview\examples\time series analysis, and labview\examples\wavelet analysis folders, respectively.Known IssuesYou can access the software and documentation known issues list online. Refer to the National Instruments Web site for an up-to-date list of known issues in the Advanced Signal Processing Toolkit.Bug FixesThe following items are the IDs and titles of a subset of issues fixed in the LabVIEW 2009 Advanced Signal Processing Toolkit. If you have a bug ID, you can search this list to validate that the issue has been fixed. This is not an exhaustive list of issues fixed in the current version of the Advanced Signal Processing Toolkit.
Bug IDFixed Issue
113456The Advanced Signal Processing Toolkit Express VIs can't load data from some *.wav files.
127458The WA Multiscale Peak Detection VI does not detect peaks in some datasets.
130675The TFA Read from File VI and WA Read from File VI can't load data from some *.wav files.
140035The "noise" indicator of TSA Vector AR Modeling VI is not consistent when this VI runs more than once.
148994The MUSIC spectrum has artificial peak when the input signal is noise-free.
149357The WA Probability Density Function Estimation VI has numeric precision problems.
150692The TSA Time-Cepstrum VI returns no results and no error when the signal length is short.
155170The WA Detrend VI calculates incorrect optimal trend level if the trend level is -1.
164341Beam Vibration (linear) and Beam Vibration (nonlinear) data sets are switched in the TSA Time Series Samples VI.
Important InformationCopyright© 2009 National Instruments Corporation. All rights reserved.Under the copyright laws, this publication may not be reproduced or transmitted in any form, electronic or mechanical, including photocopying, recording, storing in an information retrieval system, or translating, in whole or in part, without the prior written consent of National Instruments Corporation.National Instruments respects the intellectual property of others, and we ask our users to do the same. NI software is protected by copyright and other intellectual property laws. Where NI software may be used to reproduce software or other materials belonging to others, you may use NI software only to reproduce materials that you may reproduce in accordance with the terms of any applicable license or other legal restriction.TrademarksCVI, National Instruments, NI, ni.com, and LabVIEW are trademarks of National Instruments Corporation. Refer to the Terms of Use section on ni.com/legal for more information about National Instruments trademarks.The mark LabWindows is used under a license from Microsoft Corporation. Windows is a registered trademark of Microsoft Corporation in the United States and other countries.Other product and company names mentioned herein are trademarks or trade names of their respective companies.PatentsFor patents covering the National Instruments products/technology, refer to the appropriate location: Help» Patents in your software, the patents.txt file on your media, or the National Instruments Patent Notice at ni.com/patents.
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