Version 1.1 is no longer supported.
Version 1.1 is no longer supported. Please see the new version at https://usc-imi.github.io/aeo-light/ Description for 1.1 continues below: AEO-Light 1.1 is an open-source software application that takes a digital scan of motion picture film with optical sound tracks and directly reproduces the audio, producing as a result a synchronized sound film file. Funded by a grant from the National Endowment for the Humanities and by the University of South Carolina.
Advanced vehicle simulator
This project holds the latest releases for canonical versions of the ADVISOR® Software and "Advanced Vehicle Simulator". ADVISOR is a MATLAB/Simulink based simulation program for rapid analysis of the performance and fuel economy of light and heavy-duty vehicles with conventional (gasoline/diesel), hybrid-electric, full-electric, and fuel cell powertrains. New features are developed under the title "Advanced Vehicle Simulator". Periodically, stable versions of Advanced Vehicle Simulator will be submitted for consideration as the next canonical version of the ADVISOR software. ADVISOR is a registered trademark of the Alliance for Sustainable Energy, LLC, the manager and operator of the National Renewable Energy Laboratory for the United States Department of Energy. Trademark used under license.
The Biopsychology Nonlinear Toolbox is a MATLAB toolbox that combines established analysis routines in one easy to use graphical user interface.
Canopy height Statistic extraction from terrestrial laser scanner data
The software is made for generating canopy height statistics of terrestrial laser scanning (TLS) data. It is written in Matlab and compiled for standalone usage in Version 2013b 64 Bit on Windows. For running it, MS Excel and the Matlab MCR 2013b (available for free at http://ch.mathworks.com/products/compiler/mcr/) must be installed on the computer.
Different LDPC Libraries for DVB-T2/S2
Provides more than one different set of LDPC encoder and decoder, mainly to work with the DVB-T2 Common Simulation Platform Be sure to read the Wiki!
The Dutchroll project provides Open Source applications for Matlab and Simulink, with the emphasis on aerospace engineering. The main application is the Flight Dynamics and Control toolbox; other applications will be derived from that toolbox.
EAPSim is a tool, implemented in Matlab, that is used to simulate extracellular single unit neuronal recordings in the central nervous system. The simulator produces realistic recordings with and keeps track of ground truth data for signal analysis.
Extended Marcatili method for Rectangular Waveguides in Matlab
We recently extended Marcatili’s approximate analytical approach for the description of light propagation in rectangular waveguides to the regime of (silicon) high-index-contrast waveguides. This software is a Matlab implementation of the method.
Face Recognition System Matlab source code
Research on automatic face recognition in images has rapidly developed into several inter-related lines, and this research has both lead to and been driven by a disparate and expanding set of commercial applications. The large number of research activities is evident in the growing number of scientific communications published on subjects related to face processing and recognition. Index Terms: face, recognition, eigenfaces, eigenvalues, eigenvectors, Karhunen-Loeve algorithm.
Fingerprint Recognition System 5.3 - Matlab source code
The proposed filter-based algorithm uses a bank of Gabor filters to capture both local and global details in a fingerprint as a compact fixed length FingerCode. The fingerprint matching is based on the Euclidean distance between the two corresponding FingerCodes and hence is extremely fast. We are able to achieve a verification accuracy which is only marginally inferior to the best results of minutiae-based algorithms published in the open literature. Our system performs better than a state-of-the-art minutiae-based system when the performance requirement of the application system does not demand a very low false acceptance rate. Finally, we show that the matching performance can be improved by combining the decisions of the matchers based on complementary (minutiae-based and filter-based) fingerprint information. Index Terms: Biometrics, FingerCode, fingerprints, flow pattern, Gabor filters, matching, texture, verification.
This projected is designed for the rapid identification and analysis of the D-Period spacing in collagen fibrils.
Matlab freeware for data analysis, by J. M. Lilly
Locally Weighted Projection Regression (LWPR)
Locally Weighted Projection Regression (LWPR) is a fully incremental, online algorithm for non-linear function approximation in high dimensional spaces, capable of handling redundant and irrelevant input dimensions. At its core, it uses locally linear models, spanned by a small number of univariate regressions in selected directions in input space. A locally weighted variant of Partial Least Squares (PLS) is employed for doing the dimensionality reduction. Please cite:  Sethu Vijayakumar, Aaron D'Souza and Stefan Schaal, Incremental Online Learning in High Dimensions, Neural Computation, vol. 17, no. 12, pp. 2602-2634 (2005).  Stefan Klanke, Sethu Vijayakumar and Stefan Schaal, A Library for Locally Weighted Projection Regression, Journal of Machine Learning Research (JMLR), vol. 9, pp. 623--626 (2008). More details and usage guidelines on the code website.
This project is a lab prototype of MEG default mode network in MATLAB.
Default mode network (DMN) or task negative network (TNN) may provide useful information on state of brain. Normal brain is constantly busy and demonstrates a network of synchronized activity at distinct brain regions. Trauma, injury, or resection ruptures this natural network of neuronal connectivity, subsequently altering the default scheme of synchronized activation. This utility is designed to quickly analyze and visualize the default mode network, at current state of brain, for MEG data acquired from any subject. Customization of threshold and sampling rate, followed by complete circular visualizations for quick clinical references are a plus. The program is primarily designed to facilitate clinicians, and researchers. The researchers can further analyze, if required, using the MAT file stored from the last analysis. Moreover, the framework can be used to estimate functional connectivity while performing any particular task.
FEATool Multiphysics is an easy to use Matlab FEM Simulation Toolbox
FEATool Multiphysics is a fully integrated and very easy to use Matlab Finite Element FEM Simulation Toolbox developed by Precise Simulation Ltd. (https://github.com/precisesimulation). With FEATool and its easy to use GUI you can set up and solve any PDE equation based problem directly in Matlab. Physics simulation has never been easier. Visit https://www.featool.com for more information.
Routines for wavefront propagation in IDL, Matlab, and Python
PROPER is a library of routines for the propagation of wavefronts through an optical system using Fourier-based methods. It was developed at the Jet Propulsion Laboratory for modeling stellar coronagraphs, but it can be applied to other optical systems were diffraction propagation is of concern. It is currently available for IDL (Interactive Data Language), Matlab and Python (2.7 & 3.x). It includes routines for generating complex apertures and obscurations and aberrations (Zernike & PSD-defined). It includes a model of a deformable mirror for wavefront control. The routines perform near and far field propagation with automatic selection of propagators. All Python users are urged to download v3.0b, which has some major bug fixes. The latest Python version is v3.0b released on 6 Mar 2018. IDL and Matlab versions are v3.0a from 22 Jan 2018.
A collection of MATLAB tools for PIV, PTV, particle sizing, and more.
Qi is a collection of MATLAB tools for the quantitative analysis of flow field images. Our Particle Image Velocimetry (PIV) tool, prana, implements a Robust Phase Correlation kernel for PIV analysis, and now includes Particle Tracking Velocimetry and sizing tools. Tools for pressure calculation, proper orthogonal decomposition (POD), and 3d imaging are under development.
Evaluation software for shovelomics images
Root Estimator for Shovelomics Traits (REST) is a software developed for an automated or semi automated high-throughput analysis of root system traits form high quality RGB pictures. Standardized image acquisition is strongly recommended and briefly described in the manual which you can get here for free http://plantscience.psu.edu/research/labs/roots/publications/overviews/next-generation-shovelomics-set-up-a-tent-and-rest
A lightweight, simple and easy to use embedded system task scheduler. RataOS is written as a high level C, with a simple HAL & API structure, allowing it to be ported between embedded devices easily.
A soft-real-time hardware-in-the-loop simulation framework utilizing SysV IPC and Glade/GTK user interface. For demonstration purposes, includes an implementation of a fixed timestep dynamic simulation of a power grid.
Satellite Power Analysis Tool
# Satellite Power Analysis Tool (SPAT) The tool was originally created to aid during the Satellite Power System design process, however it has evolved to a Satellite Missoin design tool. The user defines the mission and the Satellite design paramenters and, the tool will output: - Power analysis - Battery charge/discharge analysis - Link budget - Ground track coverage - Ground station visibility SPAT has been developed in MATLAB and MCR (Matlab runtime) is required. SPAT is pre-compiled and currently available for MacOS and Windows email: aitorvs(AT)gmail.com
Design and develop Recommendation and Adaptive Prediction Engines to address eCommerce opportunities. Build a portfolio of engines by creating and porting algorithms from multiple disciplines to a usable form. Try to solve NetFlix and other challenges.
The Spatio-temporal Kriging is a small software for kriging. The main function of this software including: 1. This software have both Chinese and English speech interfaces; 2. Supports three kinds of time data format(day,month and year; 3. Analysis of basic statistics and normal distribution inspection; 4. Spatio-temporal Semi-variance Calculating; 5. Spatio-temporal model curvefitting of both separable and non-separable models; 6. Spatio-temporal interpolation of single time and many times; In this software, it focus on the time dimension, so the format of the time is very very important, so you must select the right time format according to the data format.
Glycosylation Network Analysis Toolbox (GNAT)
GNAT is an open source, platform-independent MATLAB based toolbox. It is written in MATLAB and Java. It has been tested in Windows (Windows 7), Linux (Ubuntu), and Mac OS (X Lion) platforms. The original GNAT package (file GNAT.zip) provides functions for reading, writing, manipulation, visualization and simulation of glycan structures and glycosylation reaction networks (citation ). The second version of this software (GNATv2beta.zip) upgrades the original GNAT program with additional features that are geared towards incorporating glycan-structure experimental data into the simulation environment. For information about GNAT installation and usage, please see the GettingStarted.pdf file enclosed in the package. To cite GNAT:  Gang Liu, Apurv Puri and Sriram Neelamegham, Glycosylation Network Analysis Toolbox (GNAT): a MATLAB based environment for systems glycobiology, Bioinformatics 2013 29: 404-406