DADiSP 6.5
DADiSP software modules
A number of add-on modules have been created for DADiSP which enhance its functionality. If you are interested in any of these modules, please contact Hearne Scientific Software.
DADiSP/Matlink
DADiSP’s MatLink Module allows you to easily run any Matlab M-file directly from DADiSP. Numerical results are transferred automatically into DADiSP Windows or variables for immediate analysis and display. In addition, matrices can be copied bidirectionally between Matlab and DADiSP. MatLink allows you to preserve your legacy Matlab code while taking full advantage of the DADiSP Worksheet environment.
DADiSP/SRS
DADiSP/SRS is a menu driven module that expands DADiSP's analysis capabilities allowing the user to easily perform shock response spectrum analysis. With this easy-to-use tool, users can take their acceleration time history data and calculate the corresponding shock response spectrum through various accepted industry methods.
DADiSP/WAV
DADiSP/WAV provides the ability to quickly read, write, and edit digital audio data from WAV format files via pop-up menus or simple one-line functions. The DADiSP/WAV module is fully integrated with the DADiSP worksheet to provide a complete digital audio data analysis, display, and processing environment. DADiSP/WAV supports standard PCM WAV file format for 8- and 16-bit, mono, or stereo data giving the user the flexibility to work with the data and take full advantage of the WAV file format. In addition, DADiSP/WAV allows the user to call any Windows compatible WAV player device and play WAV data on any WAV compatible sound card.
DADiSP/COMTRADE
DADiSP/COMTRADE is a menu-driven module that extends DADiSP's importing functionality, allowing users to import COMTRADE (IEEE Standard Common Format for Transient Data Exchange) files. Designed specifically for electrical engineers at power utility companies, DADiSP/COMTRADE imports COMTRADE data files by converting information in the COMTRADE configuration file (*.cfg) into a DADiSP header file which is used by DADiSP's Import Facility, providing a complete import of data into a DADiSP format.
DADiSP/AdvDSP
DADiSP/AdvDSP is a menu-driven module for DADiSP that performs a wide variety of advanced DSP algorithms, including advanced FFT analysis, power spectral density estimation, digital interpolation and cepstrum analysis. The advanced DSP module is an easy-to-use tool that allows you to do sophisticated signal processing without any programming. Each routine is available through DADiSP's pull-down dialog box menus and as a direct command line function.
DADiSP/Controls
DADiSP/Controls is a menu-driven module which allows for the easy and accurate design, analysis, and simulation of both discrete and continuous linear time invariant single-input/single-output (SISO) controllers. All of the functionality of the Controls module can be accessed through both easy-to-use pop-up menus and single line commands. The controls module includes menus for the quick design of the most common controllers (PID), simultaneous open and closed loop frequency and time response design of continuous 2nd order systems, and the iterative design of lag and lead compensators.
DADiMP
DADiMP is a separate, standalone software module that extends the DADiSP importing functionality, allowing you to import data files with sophisticated formats. DADiMP imports your ASCII or Binary data files directly into DADiSP's Labbook data structure without actually running the DADiSP program. Unlike DADiSP's standard, internal IMPORT feature, DADiMP is run from the operating system command line or from a batch file or shell script. Because DADiMP and DADiSP are completely decoupled, DADiMP can run remotely, on a separate data collection computer. By providing direct, non-interactive access to your data files, DADiMP lets you automate, speed up, and simplify your standard data collection operations.
DADiSP/Filters
DADiSP/Filters is a menu-driven module for FIR and IIR digital filter design and analysis. From any DADiSP Worksheet, you can quickly design, view and analyse both FIR (Finite Impulse Response) and IIR (Infinite Impulse Response) filters. Once you have designed a filter, you may filter the raw data, then view and analyse the filtered signal. Through the easy-to-use pop-up menus or simple one line functions, you can tune the filter iteratively, re-filtering the data until you have separated the signal from the noise cleanly.
GPIBLab
GPIBLab is a menu-driven software module for DADiSP that collects data from IEEE-488 instruments. GPIBLab requires no programming or messy configuration. GPIBLab and DADiSP provide a full range of instrument control and data collection options through the easy-to-understand menus. Data collected from your instruments via the General Purpose Interface Bus (GPIB) is displayed automatically in DADiSP's multi-window graphical analysis Worksheet. Because GPIBLab operates within DADiSP's graphical Worksheet environment, all of the DADiSP analysis and graphics functionality is available to display, reduce, analyse, and output your data
DADiSP/NeuralNet
DADiSP/NeuralNet is an add-on module to DADiSP that provides direct and easy access to the demonstrated predictive power and pattern recognition capability of neural networking technology. With DADiSP/NeuralNet, users can build their own artificial neural networks (ANNs) and apply them to achieve more accurate predictions and pattern classifications.
DADiSP/Stats
DADiSP/Stats is a menu-driven module for DADiSP that performs a variety of statistical tests and presents statistical information graphically. The DADiSP/Stats module computes statistical measures, calculates probability values based on standard distributions, displays summary reports and graphics, and performs hypothesis tests on sample data. Each menu option in the statistics menus pops up a dialogue box that provides you with a description of the menu feature, and prompts for the location of your sample data. The results of the statistical test are displayed automatically on the screen.