A Computational Representation for Rigid and Articulated Assembly

Yanxi Liu
IEEE International Symposium of Assembly and Task Planning (ISATP97), August, 1997, pp. 224 - 230.


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Abstract
With the increasing level of automation in assembly planning and assembly execution by machines and robots, it becomes more obvious that there is a gap between the output of a mechanical designer and an assembly planner. The question is: How to describe a designed assembly to an assembly planning system? The input to almost all the current reported automatic assembly planning systems is one-static-state of the final assembly configuration regardless the assembly is meant to be rigid or articulated. The inability to represent the assembly design completely, accurately and computationally has hindered the power of an assembly planner in dealing with articulated assemblies as simple as taking something out of a drawer. In this paper we identify a computational representation (specification) of an assembly. The basic idea of this representation is simply to use each {\em oriented} surface on a solid as its primitive feature and each primitive feature is attached with its symmetry group. The relative motions (degree of freedom) under various contacts between a part or a subassembly and the rest of the assembly can be efficiently determined by combining these basic symmetry groups in a proved correct manner. These results lay out a more realistic and precise group theoretic framework than our previous work, and provide a concise, complete and computational representation for rigid and articulated assembly.

Notes
Number of pages: 7

Text Reference
Yanxi Liu, "A Computational Representation for Rigid and Articulated Assembly," IEEE International Symposium of Assembly and Task Planning (ISATP97), August, 1997, pp. 224 - 230.

BibTeX Reference
@inproceedings{Liu_1997_3223,
   author = "Yanxi Liu",
   title = "A Computational Representation for Rigid and Articulated Assembly",
   booktitle = "IEEE International Symposium of Assembly and Task Planning (ISATP97)",
   pages = "224 - 230",
   month = "August",
   year = "1997",
}