Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Computer Science, 2014.Cataloged from PDF version of thesis.Includes bibliographical references (pages 155-161).Outside the factory, robots will often encounter mechanical systems with which they need to interact. The robot may need to open and unload a kitchen dishwasher or move around heavy construction equipment. Many of the mechanical systems encountered can be described as a series of rigid segments connected by joints. The pose of a segment places constraints on adjacent segments because they are mechanically 'connected. When modeling or perceiving the motion of such an articulated system, it is beneficial to make use of these constraints t...
In order to autonomously navigate through a complex environment, a mobile robot requires sensory fee...
In this work we present an articulated tracking approach for robotic manipulators, which relies only...
Abstract—Estimating the physical parameters of articulated multibody systems (AMBSs) using an uncali...
Outside the factory, robots will often encounter mechanical systems with which they need to interact...
Abstract—We describe an algorithm to estimate the pose of a generic articulated object. Our algorith...
In this paper new results are presented for tracking complex multi-body objects. The theoretical fra...
The articulated motion of humans is varied and complex. We use the range of motion of our articulate...
International audienceIn this paper new results are presented for tracking complex multi-body object...
The interaction of a robot and its environment is one of the most important robotic skills required ...
In this paper we address the problem of tracking the motion of articulated objects from their 2-D si...
State-of-the-art approaches for articulated human pose estimation are rooted in parts-based graphica...
In this paper we present a novel real-time algorithm for simultaneous pose and shape estimation for ...
In this paper we present an algorithm for automatically estimating a subject 's skeletal structure f...
Abstract. Complex robotic tasks such as autonomous exploration and grasping demand the co-operation ...
International audienceA theoretical framework based on robotics techniques is introduced for visual ...
In order to autonomously navigate through a complex environment, a mobile robot requires sensory fee...
In this work we present an articulated tracking approach for robotic manipulators, which relies only...
Abstract—Estimating the physical parameters of articulated multibody systems (AMBSs) using an uncali...
Outside the factory, robots will often encounter mechanical systems with which they need to interact...
Abstract—We describe an algorithm to estimate the pose of a generic articulated object. Our algorith...
In this paper new results are presented for tracking complex multi-body objects. The theoretical fra...
The articulated motion of humans is varied and complex. We use the range of motion of our articulate...
International audienceIn this paper new results are presented for tracking complex multi-body object...
The interaction of a robot and its environment is one of the most important robotic skills required ...
In this paper we address the problem of tracking the motion of articulated objects from their 2-D si...
State-of-the-art approaches for articulated human pose estimation are rooted in parts-based graphica...
In this paper we present a novel real-time algorithm for simultaneous pose and shape estimation for ...
In this paper we present an algorithm for automatically estimating a subject 's skeletal structure f...
Abstract. Complex robotic tasks such as autonomous exploration and grasping demand the co-operation ...
International audienceA theoretical framework based on robotics techniques is introduced for visual ...
In order to autonomously navigate through a complex environment, a mobile robot requires sensory fee...
In this work we present an articulated tracking approach for robotic manipulators, which relies only...
Abstract—Estimating the physical parameters of articulated multibody systems (AMBSs) using an uncali...