Steffen Knoop scite author profile

Abstract-Automatic grasp planning for robotic hands is a difficult problem because of the huge number of possible hand configurations. However, humans simplify the problem by choosing an appropriate prehensile posture appropriate for the object and task to be performed. By modeling an object as a set of shape primitives, such as spheres, cylinders, cones and boxes, we can use a set of NI-to generate a set of grasp starting positions and pregrasp shapes that can then be tested on the object model. Each grasp is tested and evaluated within our grasping simulator "GraspIt!", and the best grasps are presented to the user. The simulator can also plan grasps in a complex environment involving obstacles and the reachability constraints of a robot arm.

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Incremental Learning of Tasks From User Demonstrations, Past Experiences, and Vocal Comments

Pardowitz

Knoop

Dillmann

et al. 2007

IEEE Trans. Syst., Man, Cybern. B

117

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Since many years the robotics community is envisioning robot assistants sharing the same environment with humans. It became obvious that they have to interact with humans and should adapt to individual user needs. Especially the high variety of tasks robot assistants will be facing requires a highly adaptive and user-friendly programming interface. One possible solution to this programming problem is the learning-by-demonstration paradigm, where the robot is supposed to observe the execution of a task, acquire task knowledge, and reproduce it. In this paper, a system to record, interpret, and reason over demonstrations of household tasks is presented. The focus is on the model-based representation of manipulation tasks, which serves as a basis for incremental reasoning over the acquired task knowledge. The aim of the reasoning is to condense and interconnect the data, resulting in more general task knowledge. A measure for the assessment of information content of task features is introduced. This measure for the relevance of certain features relies both on general background knowledge as well as task-specific knowledge gathered from the user demonstrations. Beside the autonomous information estimation of features, speech comments during the execution, pointing out the relevance of features are considered as well. The results of the incremental growth of the task knowledge when more task demonstrations become available and their fusion with relevance information gained from speech comments is demonstrated within the task of laying a table.

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Sensor fusion for 3D human body tracking with an articulated 3D body model

Knoop¹,

Vacek²,

Dillmann³

102

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Integrated Grasp Planning and Visual Object Localization For a Humanoid Robot with Five-Fingered Hands

Morales

Asfour²,

Azad³

et al. 2006

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The future of parking: A survey on automated valet parking with an outlook on high density parking

Banzhaf¹,

Nienhüser²,

Knoop

et al. 2017

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Steffen Knoop

Automatic grasp planning using shape primitives

Incremental Learning of Tasks From User Demonstrations, Past Experiences, and Vocal Comments

Sensor fusion for 3D human body tracking with an articulated 3D body model

Integrated Grasp Planning and Visual Object Localization For a Humanoid Robot with Five-Fingered Hands

The future of parking: A survey on automated valet parking with an outlook on high density parking

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