In robotics, robustness is an important and desirable attribute of any system, from perception to planning and control. Robotic systems need to handle numerous factors of uncertainty when they are deployed, and the more robust a method is, the fewer chances there are of something going wrong. In planning and control, being robust is crucial to deal with uncertain contact timings and positions, mismatches in the dynamics model of the system, noise in the sensor readings and communication delays. In this thesis, we focus on the problem of dealing with uncertainty and external disturbances applied to the robot. Reactive robustness can be achieved at the control stage using a variety of control schemes. For example, model predictive ...
For robots to ever achieve signicant autonomy, they need to be able to mitigate performance loss due...
This paper presents an estimator of external disturbances for legged robots, based on the system’s m...
The fundamental objective of robotics is to enhance the productivity of humans while interacting in ...
National audienceAmidst a lot of research in motion planning and control in concern with robotic app...
Biped and quadruped robots are beginning now to master the skill of walking dynamically in most stan...
As robots become more sophisticated and move out of the laboratory, they need to be able to reliably...
Xin G, Lin H-C, Smith J, Cebe O, Mistry M. A Model-based Hierarchical Controller for Legged Systems ...
We propose to quantify the effect of sensor and actuator uncertainties on the control of the center...
This thesis aims to contribute on the motion planning and control problem of the locomotion of human...
Legged animals can dynamically traverse unstructured environments in an elegant and efficient manner...
Humanoid robots are machines built with an anthropomorphic shape. Despite decades of research into t...
National audienceAmidst a lot of research in motion planning and control in concern with robotic app...
Deployment of robotic systems in the real world requires a certain level of robustness in order to d...
Industrial robots significantly improve the productivity of manufacturing operations performing vari...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
For robots to ever achieve signicant autonomy, they need to be able to mitigate performance loss due...
This paper presents an estimator of external disturbances for legged robots, based on the system’s m...
The fundamental objective of robotics is to enhance the productivity of humans while interacting in ...
National audienceAmidst a lot of research in motion planning and control in concern with robotic app...
Biped and quadruped robots are beginning now to master the skill of walking dynamically in most stan...
As robots become more sophisticated and move out of the laboratory, they need to be able to reliably...
Xin G, Lin H-C, Smith J, Cebe O, Mistry M. A Model-based Hierarchical Controller for Legged Systems ...
We propose to quantify the effect of sensor and actuator uncertainties on the control of the center...
This thesis aims to contribute on the motion planning and control problem of the locomotion of human...
Legged animals can dynamically traverse unstructured environments in an elegant and efficient manner...
Humanoid robots are machines built with an anthropomorphic shape. Despite decades of research into t...
National audienceAmidst a lot of research in motion planning and control in concern with robotic app...
Deployment of robotic systems in the real world requires a certain level of robustness in order to d...
Industrial robots significantly improve the productivity of manufacturing operations performing vari...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
For robots to ever achieve signicant autonomy, they need to be able to mitigate performance loss due...
This paper presents an estimator of external disturbances for legged robots, based on the system’s m...
The fundamental objective of robotics is to enhance the productivity of humans while interacting in ...