The Robotics Institute
Carnegie Mellon Robotics Institute
On Performability Theory and the Inverse Sliding Problem
Wesley Huang
tech. report CMU-RI-TR-94-05, Robotics Institute, Carnegie Mellon University, March, 1994
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| Abstract |
| For a given robot,we would like to know its capabilities and limitations. The question of what tasks a robot is capable of executing has been asked with increasing frequency as researchers explore the central issues of robotics. I shall refer to the theory that would answer this question as Performability Theory . One approach to Performability Theory is to examine the mechanics of the robot and the task. However, a complete model of the mechanics of a real robot and its environment quickly becomes intractable. The Inverse Sliding Problem involves simple mechanics; it deals with a planar world in which objects are free to translate and rotate but are subject to the forces of Coulomb friction. The problem is to determine the initial translational and rotational velocities required for an object to slide to a given final configuration. In this paper, I present a solution to a portion of the Inverse Sliding Problem, which I propose as the basis for a physically realistic yet simple world in which we can start to formulate the basic ideas of Performability Theory. |
| Notes |
 Sponsor: NASA Grant ID: NAGW 1175 Number of pages: 15 |
| Text Reference |
| Wesley Huang, "On Performability Theory and the Inverse Sliding Problem," tech. report CMU-RI-TR-94-05, Robotics Institute, Carnegie Mellon University, March, 1994 |
| BibTeX Reference |
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@techreport{Huang_1994_325, author = "Wesley Huang", title = "On Performability Theory and the Inverse Sliding Problem", booktitle = "", institution = "Robotics Institute", month = "March", year = "1994", number= "CMU-RI-TR-94-05", address= "Pittsburgh, PA", } |
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