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FOCS
2002
IEEE
2002
IEEE
Low-Dimensional Linear Programming with Violations
Two decades ago, Megiddo and Dyer showed that linear programming in two and three dimensions (and subsequently any constant number of dimensions) can be solved in linear time. In this paper, we consider the linear programming problem with at most k violations, i.e., finding a point inside all but at most k halfspaces, given a set of n halfspaces. We present a simple algorithm in 2-d that runs in O((n + k2 ) log n) expected time; this is faster than earlier algorithms by Everett, Robert, and van Kreveld (1993) and Matouˇsek (1994) for many values of k, and is probably near-optimal. An extension of our algorithm in 3-d runs in near O(n + k11/4 n1/4 ) expected time. Interestingly, the idea is based on concave-chain decompositions (or covers) of the (≤ k)-level, previously used in proving combinatorial k-level bounds. Applications in the plane include improved algorithms for finding a line that misclassifies the fewest among a set of bichromatic points, and finding the smallest cir...
Real-time TrafficAlgorithms | FOCS 2002 | Linear Programming | Linear Programming Problem | Theoretical Computer Science |
Related Content
| Added | 14 Jul 2010 |
| Updated | 14 Jul 2010 |
| Type | Conference |
| Year | 2002 |
| Where | FOCS |
| Authors | Timothy M. Chan |
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