AIL is an AI library that will help you to use algorithms such as A*,DFS and BFS.
AILA is an client/server application based on the extinct Program D.
Library for Arduino 32bit hardware to easily access chip periphery
A scheme (lisp) interpreter written in ARM assembly language (ARM7TDMI, ARM920T, Cortex-M3) for education, robotics, wearable devices. Tested on NXP LPC-1300,1700,2000, ATMEL AT91SAM7, STM STR711, STR911, STM32, CIRRUS EP9302, LMI LM3S1968, TI OMAP.
WE'VE MOVED. The code distributions for BECCA (Brain-Emulating Cognition and Control Architecture) has all been moved to www.sandia.gov/rohrer/ . Come visit!
Brainbot is a general purpose robotics research platform, with an onboard PC. Brainbot's development was funded by the Brain Engineering Lab, the Neukom Institute, and HUV, Inc.
Open, free and extensible plataform for developing robotics projects
Charlottesville-Albermarle Robotics and their FIRST Robotics Competition Team # 619, Cavalier Robotics, share their robotics and related code with the entire FIRST community and the world.
It's a flexible software bundle and framework for face recognition, which enables users to log into computer automatically, perform face detection, recognition and tracking, and perform experiments. Other applications can be built on top of it.
CoPP is an object-oriented framework for developing algorithms for robot path planning. One of of the design goals is to make it easy to make comparisons between various path planning algorithms.
DARPA Urban Challenge, a C++ based platform for testing Path Planning Algorithms: An application of Game Theory and Neural Networks. Rubin, Raphael (2007)
Unofficial driver and function library for the Evolution ER-1 Robotics Platform.
An open-source Unmanned Aerial Vehicle
Greyhound Lua is a distribution of Lua intended to be used for the FIRST Robotics Competition. Teams can use this to write their robot code in Lua. Greyhound Lua is in no way endorsed or sponsored by US FIRST.
The RoboCup Team of Shanghai University (aka. Strive Team) is now devoting itself to the Humanoid League Contest. Many features like machine vision, pace generation, speech cognition, etc. of the humanoid robots is rising here in the following years.
A collaboration of past and future robotics and embedded projects and support libraries developed by the Montgomery College Rockville Robotics Club and IEEE Student Chapter. Visit our hompage at http://ieeemcrobotics.sourceforge.net/
This project is to make a real multi-view 3d reconstruction system on the new multicore Cell processor.
Control system for Kite Aerial Photography (KAP) based on the Atmel AVR chipset, Xbee radios, and Orangutan-lib for atmega168. Software and Hardware design released under MIT License.
This project contains both tools and data for Optical Flow evaluation purposes. It offers: many ground truth optical flow sequences; a tool for generating optical flow data from real sequences; implementations of some optical flow algorithms.
Optical trap control software. This project provides an example LabVIEW software program to perform data acquisition and feedback control of optical tweezers, especially for single-molecule biophysics experiments.
This project will be a Java Application for the Parallax Microntrollers, It will eventualy implement Code Snippets, and javadocs when completed. If you are experianced and interested in Java, please help this project.
Random any number you want as many as you want
Random any number you want and how many as you want for free . Design for winning the lottery
Este proyecto es una iniciativa para reconstruir la plataforma PUMA MA2000 de la empresa TeQuipment ltd. por medio de la implementación de un sistema empotrado basado en tecnología FPGA.
This project contains an implementation of a robot proxy as presented in Kristen Stubbs's doctoral thesis, "Robot-Proxy Grounding."
Senseless is an application for wireless sensor and actuator networks (SANETs). The senseless framework connects several WSNs to end-applications which allow the user to monitor and control these WSNs without any knowledge of the underlying system.