Backend for scripts to control an SBIG ST-4 CCD camera.
A Java port of the SGP4 algorithm for orbital propagation of artificial satellites
SST is a an object-oriented software foundation for a Rail Vehicle Simulator developed as a joint venture between Swedish National Rail Administration (Banverket), University of Uppsala and Swedish National Road and Transport Research Instititute.
An STM control program designed to be compatible with any hardware and/or operating system.
Home of the SansView project for SANS analysis
NOTICE: DEVELOPMENT OF THIS PROJECT HAS ENDED!! Its successor can be found at: https://sourceforge.net/projects/sasview ------------------ SansView is a Small Angle Scattering (SAS) analysis package for the analysis of 1D and 2D scattering data directly in inverse space. The focus was originally on neutron data (SANS) but has been used for X-ray’s as well and includes a tool for determining a slit resolution for the SAXSess instrument. SansView also includes PrView to invert SAS data to P(r), a resolution calculator, and a scattering length density calculator among others tools. A simple plugin mechanism is available for users to add custom models. This project was initiated by the NSF funded DANSE project, DMR-0520547, SANS sub-project at the University of Tennessee Knoxville. Acknowledgement of that original funding would be appreciated in any publications that make use of the software.
*nix Sidereal Clock
*nix Sidereal Clock Application
This little software allows the user to place objects in a system which considers mass and distances to calculate the proper gravity interaction and simulating objects moves.
Programs to download and work with satellite measurements, calculate solar wind (SW) propagation time and compare data to other satellites. It uses and compares different modern techniques to determine the SW planar structures orientation.
The fluid simulator consists of a core library and a GUI. The core makes all calculations based on the paper "Stable Fluids" by Jos Stam. It is able to simulate fluid flow in abritrary time steps. Support for boundaries is included.
Ordinary Differential Equation (ODE) solver for Tcl. Handles both stiff and non-stiff sets of equations; does time-evolved initial value problems and root finding. Based on the popular Lawrence Livermore solver LSODE.
Al2 is a language, close to C++ and Java, designed for use in mathematics and science, but is procedural unlike Mathematica and Maple. Like C++, class operators can be defined. Like Java, there is no need for header files. Aled is an interface to AL2.
The GWO library is numerical calculation library for the diffraction integrals using a GPU (Graphics Processing Unit). If optics engineers and researchers have no knowledge of GPU, the GWO library provides them with the GPU calculation power easily.
VAPOR is the Visualization and Analysis Platform for Ocean, atmosphere, and solar Research
Virtual interactive experiments (vexp) is a framework to promote the developmentand use of cooperative e-learning experiments over the internet. Interactive scientific experiments which can be controlled by various users synchronously.
Reusable building blocks for simulations with semiclassical wavepacket
Reusable building blocks for simulations with semiclassical wavepackets for solving the time-dependent Schrödinger equation.
WeGaFloC stands for Wet Gas Flow Computing. This is an algorithm for calculating the wet gas flow rates in production plant using Venturi flow meters.
Rapid application development environment for high-level control of particle accelerators.
Using arduino hardware as a basis create a library of: sensor gathering functions, basic functions for mode changing, etc., functions for data display to serial LCD, datalogging functionalities.
Bergamote is a free Finite Element Modeling software
Cca-forum unifies the Common Component Architecture tools and tutorial. It includes the CCA specifications, the Ccaffeine framework for HPC, and related tools. These support multilanguage scientific and parallel computing.
A simple periodic table of elements viewer using elementary and edje.
GUI for fitting 3D single-molecule images using the double-helix PSF
This package of MATLAB routines with accompanying GUI allows scientific users to measure the 3D location of single molecules when using the double-helix point spread function (DH-PSF) widefield microscope. Features - Double-Gaussian estimator is calibrated via an axial scan of bright immobile fluorescent emitters (e.g. beads). - Template-matching and double-helix recognition algorithm is calibrated via setting an image correlation threshold against single-molecule data. - Tiff stacks of SM images are analyzed using template matching followed by double-Gaussian fitting to extract estimates of the molecule positions. - The motion/drift of fiduciaries (e.g. fluorescent beads) during an experiment can tracked and removed form SM localization data. - 3D localization data can be exported to .csv format for post-processing and visualization. - Basic 3D scatterplot and 2D z-projection histogram visualizations are included.
EMG-30-1 control embedded program.Our company develops and produces high-tech gas analyzing equipment; we also deal with automatic control tasks resolution and perform scientific research works.
Physics Simulation Software based on user sketchs running a pattern recognition agent, this app is able to animate a physics sketch, from a blackboard
C implementation of the Transfer Matrix Method (TMM) in Acoustics running under Linux and Windows. It features various models for the prediction of sound absorption of acoustical porous materials and aims for capabilities similar to commercial products.