Add to ORKGSummary. Trajectory generation has traditionally been formulated on the assumption that the environment is flat. On rough terrain, however, deviations of the angular velocity vector from the vertical lead to errors which accumulate in a manner similar to the accumulation of attitude errors in odometry. In practice, feedback control can compensate for these errors in modeling by adjusting the path in real time. In many realistic cases, however, the 3D shape of the terrain is known beforehand, so it is possible to incorporate terrain shape into the predictive model — rather than treat it as an unknown disturbance. This paper presents an algorithm for trajectory generation which compensates for terrain shape in a predictive fashion. The numeri...
In this paper we predict the amount of slip an exploration rover would experience using stereo image...
The use of heavy vehicles in rough terrain is vital in the industry but has negative implications fo...
This paper presents an approach for slip prediction from a distance for wheeled ground robots using ...
The problem of generating continuous trajectories for motion over general 3D terrain is important. T...
Unknown properties of a robot's environment are one of the sources of uncertainty in autonomous navi...
The control of planetary rovers, which are high performance mobile robots that move on deformable ro...
This paper presents a method for wheel-ground contact angle measurement and a traction control strat...
An algorithm is presented for wheeled mobile robot trajectory gen-eration that achieves a high degre...
Mobile robots have successfully been used in rough terrain, most prominently NASA/JPL’s Mars Explor...
Autonomous ground vehicles (AGVs) are considered to be critical for the future of the military. As m...
This paper uses aspects of dead reckoning for terrain adapting a mobile robot moving over a rocky ...
Copyright © 2014 Liang Ding et al. This is an open access article distributed under the Creative Com...
Abstract In this paper we predict the amount of slip an exploration rover would experience using st...
| This paper deals with motion planning on rough terrain for mobile robots. The aim is to develop ee...
During space missions, real time tele-operation of a rover is not practical because of significant s...
In this paper we predict the amount of slip an exploration rover would experience using stereo image...
The use of heavy vehicles in rough terrain is vital in the industry but has negative implications fo...
This paper presents an approach for slip prediction from a distance for wheeled ground robots using ...
The problem of generating continuous trajectories for motion over general 3D terrain is important. T...
Unknown properties of a robot's environment are one of the sources of uncertainty in autonomous navi...
The control of planetary rovers, which are high performance mobile robots that move on deformable ro...
This paper presents a method for wheel-ground contact angle measurement and a traction control strat...
An algorithm is presented for wheeled mobile robot trajectory gen-eration that achieves a high degre...
Mobile robots have successfully been used in rough terrain, most prominently NASA/JPL’s Mars Explor...
Autonomous ground vehicles (AGVs) are considered to be critical for the future of the military. As m...
This paper uses aspects of dead reckoning for terrain adapting a mobile robot moving over a rocky ...
Copyright © 2014 Liang Ding et al. This is an open access article distributed under the Creative Com...
Abstract In this paper we predict the amount of slip an exploration rover would experience using st...
| This paper deals with motion planning on rough terrain for mobile robots. The aim is to develop ee...
During space missions, real time tele-operation of a rover is not practical because of significant s...
In this paper we predict the amount of slip an exploration rover would experience using stereo image...
The use of heavy vehicles in rough terrain is vital in the industry but has negative implications fo...
This paper presents an approach for slip prediction from a distance for wheeled ground robots using ...