Search Results for "usarsim"

The Mobility Open Architecture Simulation and Tools (MOAST) framework aids in the development of autonomous robots. It includes an architecture, control modules, interface specs, and data sets and is fully integrated with the USARSim simulation system.

USARSim (Unified System for Automation and Robot Simulation) is a high-fidelity simulation of robots and environments based on the Unreal Tournament game engine. It is intended as a research tool and is the basis for the RoboCup rescue virtual robot comp

USARSimRos is designed to provide a seamless interface between the USARSim framework (www.sourceforge.net/projects/usarsim) and ROS (www.ros.org). USARSim provides embodyment (sensors and platforms) and environments for a physics-based robotic simulation while ROS provides leading edge control algorithms. USARSimROS provides for auto-discovery of the simulated robots and sensors and connects these robots to the appropriate ROS control topics.

The DARPA Urban Challenge race for robot vehicles took place on Nov 3, 2007. We pose a new urban challenge: build a safe, convenient, energy efficient people mover. This site provides the hardware and software for a prototype system.

This is an object oriented approach for a wrapper around the USARSim project. Using C++, this is a library that allows code similar to Player/Stage code to be used on the USARSim project. USARSim: https://sourceforge.net/projects/usarsim

Welcome to Multimodal AirRobot Controller (MMAR) This project intends to develop a multimodal interface which gives a human operator capability of controlling QuadRotors efficiently and more easily. During this project we use simulated quadrotor called AirRobot in a simulation environment for development of robots, USARSim. There are some aspects involved in this project including touch, pose tracking, gesture recognition, voice recognition, etc and we try to utilize capabilities of devices available today such as some pose measurement tools like Android Devices (with accelerometer, compass, etc), some gesture recognizer like whether simple cameras or some other tools for instance Microsoft Kinect (with gesture and voice recognition), a Windows PC (As a Server for our application), another Windows PC (As a server to USARSim)

Welcome to Multimodal Unmanned Aerial Vehicle Controller (MMAR) This project intends to develop a multimodal interface which gives a human operator capability of controlling a QuadRotor UAV efficiently and more easily. During this project we use a simulated QuadRotor called AirRobot in a simulation environment for development of robots, USARSim. There are some aspects involved in this project including touch, pose tracking, gesture recognition, voice recognition, etc and we try to utilize capabilities of some devices available today such as Android Phones and Microsoft Kinect. Using a windows appliacation called MMUAVC Fusion App, this system gathers all data from sensors and issues control commands for the QuadRotor