We have accelerated a robust model-based 3D tracking system by programmable graphics hardware to run online at frame-rate during operation of a humanoid robot and to efficiently auto-initialize. The tracker recovers the full 6 degree-of-freedom pose of viewable objects relative to the robot. Leveraging the computational resources of the GPU for perception has enabled us to increase our tracker’s robustness to the significant camera displacement and camera shake typically encountered during humanoid navigation. We have combined our approach with a footstep planner and a controller capable of adaptively adjusting the height of swing leg trajectories. The resulting integrated perception-planning-action system has allowed an HRP-2 humanoid robo...
Recent advances in humanoid robotics, such as the introduction of Honda’s Asimo robot, have brought ...
Abstract — In this paper, we present an approach to enable a humanoid robot to autonomously climb up...
Abstract — In this paper, we present a localization method for humanoid robots navigating in arbitra...
Abstract—For humanoid robots to fully realize their biped potential in a three-dimensional world and...
The recent increased usage of robots in society brings about unique challenges, such as endowing the...
We present an approach to navigation planning for humanoid robots that aims to ensure reliable execu...
Humanoid robot research and development have been an ongoing effort since the 1900sand can be broken...
Humanoid robots introduce instabilities during biped march that complicate the process of estimating...
Abstract — In this paper, we present an integrated navigation system that allows humanoid robots to ...
Two whole-body motion planning and control methods are presented in this report: trajectory generati...
<p>This thesis presents an online approach for controlling humanoid robots using hierarchical optimi...
Humanoid robotics hardware and control techniques have advanced rapidly during the last five years. ...
Human-like trajectory generation and footstep planning represent challenging problems in humanoid ro...
iii Real-time 3D Person Tracking and Dense Stereo Maps Using GPU Acceleration Kendall Merriman Inter...
A method to segment a floor and an obstacle region from images, is a fundamental function for robots...
Recent advances in humanoid robotics, such as the introduction of Honda’s Asimo robot, have brought ...
Abstract — In this paper, we present an approach to enable a humanoid robot to autonomously climb up...
Abstract — In this paper, we present a localization method for humanoid robots navigating in arbitra...
Abstract—For humanoid robots to fully realize their biped potential in a three-dimensional world and...
The recent increased usage of robots in society brings about unique challenges, such as endowing the...
We present an approach to navigation planning for humanoid robots that aims to ensure reliable execu...
Humanoid robot research and development have been an ongoing effort since the 1900sand can be broken...
Humanoid robots introduce instabilities during biped march that complicate the process of estimating...
Abstract — In this paper, we present an integrated navigation system that allows humanoid robots to ...
Two whole-body motion planning and control methods are presented in this report: trajectory generati...
<p>This thesis presents an online approach for controlling humanoid robots using hierarchical optimi...
Humanoid robotics hardware and control techniques have advanced rapidly during the last five years. ...
Human-like trajectory generation and footstep planning represent challenging problems in humanoid ro...
iii Real-time 3D Person Tracking and Dense Stereo Maps Using GPU Acceleration Kendall Merriman Inter...
A method to segment a floor and an obstacle region from images, is a fundamental function for robots...
Recent advances in humanoid robotics, such as the introduction of Honda’s Asimo robot, have brought ...
Abstract — In this paper, we present an approach to enable a humanoid robot to autonomously climb up...
Abstract — In this paper, we present a localization method for humanoid robots navigating in arbitra...