Abstract
This paper puts forth a planning theory for precision machining based on a principle named 'Holding-under-Uncertainty'. While previous work in process planning established plan ordering on an empirical basis alone, our work demonstrates how ordering knowledge can be derived by reasoning from first principles. A model representing the principle of Holding-under-Uncertainty and the dynamics of process planning for precision machining based on this principle is described. An automated planner that implements this model computationally by constraint propagation is presented.
Original language | English (US) |
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Title of host publication | Unknown Host Publication Title |
Publisher | Publ by American Soc of Mechanical Engineers (ASME) |
Pages | 891-897 |
Number of pages | 7 |
State | Published - Dec 1 1988 |
Event | Proceedings of the USA-Japan Symposium on Flexible Automation - Crossing Bridges: Advances in Flexible Automation and Robotics - Minneapolis, MN, USA Duration: Jul 18 1988 → Jul 20 1988 |
Other
Other | Proceedings of the USA-Japan Symposium on Flexible Automation - Crossing Bridges: Advances in Flexible Automation and Robotics |
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City | Minneapolis, MN, USA |
Period | 7/18/88 → 7/20/88 |