JMCAD is an program for the modeling and simulation of complex dynamic systems. This includes the ability to construct and simulate block diagrams. The visual block diagram interface offers a simple method for constructing, modifying and maintaining complex system models. The simulation engine provides fast and accurate solutions for linear, nonlinear, continuous time, discrete time, time varying and hybrid system designs. With JMCAD, users can quickly develop software or "virtual" prototypes of systems or processes to demonstrate their behavior prior to building physical prototypes. The user builds his system model by selecting predefined blocks from a block library and simply wiring the blocks together. Each block of the diagram performs a function. Users can also create custom blocks in Java and add them to the JMCAD block library. JMCAD is a block diagram language for creating complex nonlinear dynamic systems.
A pre- and post-processing program for the VASP code
Basic features: 1, Convert POSCAR or CONTCAR to cif or xsf format; 2, Extract the data of DOS and Band; 3, Extract Charge/Spin density (Open with VESTA ); 4, Linear optical properties; 5, Extract Fermi-Surface data; 6, and so on...
Digital Circuits Design and Simulation
Digital Logic Design is a Software tool for designing and simulating digital circuits. It provides digital parts ranging from simple gates to Arithmetic Logic Unit. In this software, circuit can easily be converted into a reusable Module. A Module may be used to built more complex circuits like CPU. The circuit working can be analyzed by using output parts like LEDs, Seven Segment Display and Digital Oscilloscope etc. provided in the software. This Software may be used by professionals, hobbyists and students alike. The teachers may incorporate this software in their courses like Digital Logic and Computer Design, Computer Architecture, Computer Organization and Embedded Systems. In this software, a circuit may be designed using graphical components or may be entered as Sum-of-Product Boolean form.
EyeMap is a visualization and analysis tool for text reading eye movement data. It can process Unicode, proportion/non-proportion and spaced/unspaced reading materials, which supports various languages and experiment methods.
ANPR for National Borders Systems
The idea is to enhance and develop the national border crossing process by the integration of automated vehicle recognition while crossing country borders. i'm going to use Automatic number plate recognition (ANPR): a system that recognizes the numbers of the vehicle plates by using OCR (optical character recognition) technology and Infrared cameras. This is going to be achieved by taking the license plate image from the camera and processing it using the software I’m going to develop together with an open source OCR system. The output is going to be a text version of the plate number. Then it is going to retrieve that number from a database and get the information of the vehicle owner. Note: please note that you need emgucv installed. you also need to move the project files to: C:\Emgu\emgucv-windows-x86XXX\Emgu.CV.Example\
The count of vehicles is a key task in traffic gauging, as it provides information for designing new roads. This software presents an algorithm to detect and track vehicles in real time or from a video file.
This is a DataMining Tool developed by C# Just use Apirori Method to find the relation rules of data
Mac upgraded to OSX, Lepard which do not support os9 anymore. This project is build to help DNA Strider user to get their data out and perform some basic DNA analyze function.
Science Laboratory Inventory and Order Management System
Science Laboratory Inventory and Orders Management System: suitable for school's science laboratories to manage stored items (chemical and equipment) and adds a way to order these items on-line for science lessons and practical experiments. It's PHP/MySQL web application which needs to be installed in one server and runs in any client's browser with no modification at all. It's a multi-user system with different privileges. Demo is available at: http://sciencelabinv.sourceforge.net/demo/
Visage is a human computer interface that aims to replace the traditional mouse with the face. Using a webcam and Visage the movement of the face becomes the movement of the mouse pointer. Left/right Eye blinks fire left/right mouse click events.
The Home of DMSFT, AAFFT, GFFT, and MSFFT.
A collection of sparse Fourier transform codes developed by faculty at MSU. Currently codes for four different prototype sparse FFTs are here: 1.) DMSFT, implemented by Ruochuan Zhang. This is a fast, stable, noise robust, and *fully discrete* improvement on the ideas in GFFT below. It is THE BEST sparse FFT around!!! If you're looking for AAFFT, try this out first. 2.) AAFFT, implemented by Mark Iwen in 2008. This code is easy to use, and documented well, but not implemented very efficiently. It is much slower than it should be. 3.) GFFT, implemented by Ben Segal and Mark Iwen. This code is less easy to use, and also not terribly efficient. But, the *algorithm* itself is significantly simpler and has "essentially no parameters". 4.) MSFFT, implemented by David Lawlor and Bosu Choi. This code is fast, but is not terribly easy to use. The algorithm is robust to some noise, but requires a lot of parameter tuning. Enjoy at your own risk :), Mark Iwen
A desktop application for analyzing whole genome VCF files
he decreasing cost high-throughput technologies led to a number of sequencing projects consisting thousands of whole genomes. The paradigm shift from exome to whole genome brings a significant increase in the size of output files. Most of the existing tools which are developed to analyze exome files are not adequate for large VCF files produced by whole genome studies. In this work we present VCF-Explorer, a variant analysis software capable of handling large files. Efficient memory management of the program and the elimination of preliminary parsing step enable to carry out the analysis at ordinary computers. VCF-Explorer presents an easy to use environment where various types of queries for the annotation and the samples can be defined. VCF-Explorer can be run at different environments and computational platforms ranging from a standard laptop to an advanced server.
An easy to install and use toolbox for octave for the calculation purpose of power system along with features like Economic load dispatch, load flow analysis, transmission line parameter and swing equation etc
HOT is a package of Matlab and Octave compatible functions that manage thermodynamic data for a wide range of species. Functions calculate almost all the most common thermodynamic quantities of mixtures. Python users may also want to look at PYroMat at https://chmarti1.github.io/PYroMat/index.html
Free Matlab toolbox to compute robust correlations
The Robust Correlation Toolbox is a free collection of Matlab functions allowing to visualize data in univariate and bivariate space, check assumptions of normality and homoscedasticity and compute Pearson's and Spearman's, percentage bend, and skipped correlations with bootstrapped confidence intervals - see http://www.frontiersin.org/Quantitative_Psychology_and_Measurement/10.3389/fpsyg.2012.00606/full
Source code from the Research Institute for Signals, Systems and Computational Intelligence http://fich.unl.edu.ar/sinc
Homozygous Stretch Identifier from next-generation sequencing data
In consanguineous families, as a result of inheriting the same genomic segments through both parents, the individuals have stretches of their genomes that are homozygous. This situation leads to the prevalence of recessive diseases among the members of these families. Homozygosity mapping is based on this observation and several recessive disease genes have been discovered with the help of this technique in consanguineous families. The researchers typically use SNP arrays to determine the homozygous regions and then search for the disease gene by sequencing the genes within this candidate disease loci. Recently, the advent of next generation sequencing enables the concurrent identification of homozygous regions and the detection of mutations relevant for diagnosis, using data from a single sequencing experiment. In this respect, we have developed a novel tool that identifies homozygous regions using deep sequence data. Using *.vcf files as an input file, our program identifies the majo
UPDATE, Check out our new website where we will host all future updates and improvements. The Sourceforge site will no longer be maintained and updated. www.TheChronosProject.com Project Chronos is an open source time lapse rail. It is a fully features system that offers the same level of control as professional systems costing thousands of dollars. It is also the most accurate time lapse system available capable of making accurate movements 1/125th the width of a human hair. And the best news, is this is 100% open source with all schematics, parts lists, and instructions online and free to use. Feel free to contact us at firstname.lastname@example.org with any questions. For more information check the home screen and the wiki on this project page, also be sure to check out my Vimeo channel to see the system in actions as well as any news updates. Like us on Facebook! https://www.facebook.com/ProjectChronos2 https://vimeo.com/channels/279374
.NET library for embedding CLIPS in to .NET applications.
JPACS, Java Processor and Cache Simulator, was developed to give a simple and clear tool to simulate a processor with a complete associative memory cache at ISA level, using direct memory access or using a program written in assembly.
Convert MCNPX binary mesh tally data files to MS Excel (c) database and contour data
This project proposes a virtual laboratory for social scientists interested in the modelling, analysis and behavioral simulation of power relationships within organizations and more generally in systems of collective action. This software is grounded on the works lead by Sibertin-Blanc and Roggero on the formalization of the Sociology of Organised Action [Crozier and Freidberg]. Visit the homepage of the project on soclabproject.wordpress.com for tutorials, examples and further theoretical position.
molecular editor and viewer
Luscus is the program for graphical display and editing of molecular systems. The program allows fast and easy building and/or editing different molecular structures, up to several thousands of atoms large. Luscus can also visualize dipole moments, normal modes, molecular orbitals, electron densities and electrostatic potentials. In addition, simple geometrical objects can be rendered in order to point out a geometrical feature or a physical quantity. The program is developed as a graphical interface for MOLCAS program package, however it's adaptive nature makes possible using luscus with other computational program packages and chemical formats. If you use this program, please cite: G. Kovačević, V. Veryazov, J. Cheminformatics, 7 (2015) 1-10; DOI: 10.1186/s13321-015-0060-z
A MATLAB toolbox for relating neural signals to continuous stimuli
mTRF Toolbox is a MATLAB toolbox that permits the fast computation of the linear stimulus-response mapping of any sensory system in the forward or backward direction. It is suitable for analysing EEG, MEG, ECoG and EMG data. The forward model, or temporal response function (TRF), can be interpreted using conventional analysis techniques such as time-frequency and source analysis. The TRF can also be used to predict future responses of the system given a new stimulus signal. Similarly, the backward model can be used to reconstruct spectrotemporal stimulus information given new response data. mTRF Toolbox facilitates the use of continuous stimuli in electrophysiological studies as opposed to time-locked averaging techniques which require discrete stimuli. This enables examination of how neural systems process more natural and ecologically valid stimuli such as speech, music, motion and contrast. Support documentation: http://dx.doi.org/10.3389/fnhum.2016.00604
This is a suite of mathematical software solvers GUI
This is a suite of mathematical software solvers interface on DLV and other command-line solvers. It helps researchers and students to better comprehend their declarative definitions published on papers. The user can have links to the related papers and to the software of the corresponding definitions.