In this paper, we illustrate the development of a realistic simulation of a humanoid robot model in a virtual environment using USARSim (Urban Search and Rescue Simulator). USARSim provides an accurate 3D simulation of a virtual environment with a detailed rendering and a realistic physics. Moreover, USARSim allows users to observe the virtual environment from different views. One of these is the egocentric view, which can simulate the camera mounted on the robot. The small humanoid robot presented in this work is Robovie-M, developed by VStone Ltd. (Japan). This robot is used by our team Artisti in the RobotCup soccer competitions. Reported experiments compare the behaviors of a real robot and of its virtual model, when controlled by the ...
{ behnke jmuller schreibe} @ informatik.uni-freiburg.de Abstract. Due to limited availability of hu...
This paper describes a humanoid robot simulator with realistic dynamics. As simulation is a powerful...
This paper describes a model to replicate the dynamics of a walking robot inside USARSim. USARSim is...
In this paper, we illustrate the development of a realistic simulation of a humanoid robot model in ...
Realistic simulations of humanoid robots depend on the model accuracy of physical properties of the ...
This paper describes our experience in the simulation of humanoid soccer robots using two general pu...
This paper describes our experience in the simulation of humanoid soccer robots using two general p...
The RoboCup is an initiative to promote the development of robotics in a social relevant way. The co...
Abstract. The RoboCup is an initiative to promote the development of robotics in a social relevant w...
This paper presents a flexible 3D simulator able to reproduce the appearance and the dynamics of gen...
In this paper a humanoid robot simulator based on the multi-robot simulation framework (MuRoSimF) is...
In this paper a humanoid robot simulator built with the Multi-Robot-Simulation-Framework (MuRoSimF) ...
This paper presents a flexible 3D simulator able to reproduce the appearance and the dynamics of gen...
Abstract. This paper presents a flexible 3D simulator able to reproduce the appearance and the dynam...
This paper presents an approach for learning complex tasks on real robots, like walking or kicking i...
{ behnke jmuller schreibe} @ informatik.uni-freiburg.de Abstract. Due to limited availability of hu...
This paper describes a humanoid robot simulator with realistic dynamics. As simulation is a powerful...
This paper describes a model to replicate the dynamics of a walking robot inside USARSim. USARSim is...
In this paper, we illustrate the development of a realistic simulation of a humanoid robot model in ...
Realistic simulations of humanoid robots depend on the model accuracy of physical properties of the ...
This paper describes our experience in the simulation of humanoid soccer robots using two general pu...
This paper describes our experience in the simulation of humanoid soccer robots using two general p...
The RoboCup is an initiative to promote the development of robotics in a social relevant way. The co...
Abstract. The RoboCup is an initiative to promote the development of robotics in a social relevant w...
This paper presents a flexible 3D simulator able to reproduce the appearance and the dynamics of gen...
In this paper a humanoid robot simulator based on the multi-robot simulation framework (MuRoSimF) is...
In this paper a humanoid robot simulator built with the Multi-Robot-Simulation-Framework (MuRoSimF) ...
This paper presents a flexible 3D simulator able to reproduce the appearance and the dynamics of gen...
Abstract. This paper presents a flexible 3D simulator able to reproduce the appearance and the dynam...
This paper presents an approach for learning complex tasks on real robots, like walking or kicking i...
{ behnke jmuller schreibe} @ informatik.uni-freiburg.de Abstract. Due to limited availability of hu...
This paper describes a humanoid robot simulator with realistic dynamics. As simulation is a powerful...
This paper describes a model to replicate the dynamics of a walking robot inside USARSim. USARSim is...