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2011

Smoothed analysis of condition numbers and complexity implications for linear programming

13 years 7 months ago
Smoothed analysis of condition numbers and complexity implications for linear programming
We perform a smoothed analysis of Renegar’s condition number for linear programming by analyzing the distribution of the distance to ill-posedness of a linear program subject to a slight Gaussian perturbation. In particular, we show that for every n-by-d matrix ¯A, n-vector ¯b, and d-vector ¯c satisfying ¯A, ¯b, ¯c F ≤ 1 and every σ ≤ 1, E A,b,c [log C(A, b, c)] = O(log(nd/σ)), where A, b and c are Gaussian perturbations of ¯A, ¯b and ¯c of variance σ2 and C(A, b, c) is the condition number of the linear program defined by (A, b, c). From this bound, we obtain a smoothed analysis of interior point algorithms. By combining this with the smoothed analysis of finite termination of Spielman and Teng (Math. Prog. Ser. B, 2003), we show that the smoothed complexity of interior point algorithms for linear programming is O(n3 log(nd/σ)).
John Dunagan, Daniel A. Spielman, Shang-Hua Teng
Added 16 May 2011
Updated 16 May 2011
Type Journal
Year 2011
Where MP
Authors John Dunagan, Daniel A. Spielman, Shang-Hua Teng
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