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ESA
2006
Springer
2006
Springer
Traversing the Machining Graph
Abstract. Zigzag pocket machining (or 2D-milling) plays an important role in the manufacturing industry. The objective is to minimize the number of tool retractions in the zigzag machining path for a given pocket (i.e., a planar domain). We give an optimal linear time dynamic programming algorithm for simply connected pockets, and a linear plus O(1)O(h) time optimal algorithm for pockets with h holes. If the dual graph of the zigzag line segment partition of the given pocket is a partial k-tree of bounded degree or a k-outerplanar graph, for a fixed k, we solve the problem optimally in time O(n log n). Finally, we propose a polynomial time algorithm for finding a machining path for a general pocket with h holes using at most OPT + h retractions, where OPT is the smallest possible number of retractions and > 0 is any constant.
Real-time TrafficAlgorithms | ESA 2006 | Pocket | ZigZag | Zigzag Machining Path |
Related Content
| Added | 22 Aug 2010 |
| Updated | 22 Aug 2010 |
| Type | Conference |
| Year | 2006 |
| Where | ESA |
| Authors | Danny Z. Chen, Rudolf Fleischer, Jian Li, Haitao Wang, Hong Zhu |
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