Summary Conclusions: Computation of Minimum Volume Covering Ellipsoids*

Summary Conclusions: Computation of Minimum Volume Covering Ellipsoids*

We present a practical algorithm for computing the minimum volume n-dimensional ellipsoid that must contain m given points a₁,..., am ∈ Rn. This convex constrained problem arises in a variety of applied computational settings, particularly in data mining and robust statistics. Its structure makes...

Full description

Bibliographic Details
Main Authors: Sun, Peng, Freund, Robert M.
Format: Article
Language:en_US
Published: 2003
Subjects:
ellipsoid
Newton’s method
interior-point method
barrier method
active set
semidefinite program
data mining
robust statistics
clustering analysis
Online Access:http://hdl.handle.net/1721.1/3896
Description
Summary:We present a practical algorithm for computing the minimum volume n-dimensional ellipsoid that must contain m given points a₁,..., am ∈ Rn. This convex constrained problem arises in a variety of applied computational settings, particularly in data mining and robust statistics. Its structure makes it particularly amenable to solution by interior-point methods, and it has been the subject of much theoretical complexity analysis. Here we focus on computation. We present a combined interior-point and active-set method for solving this problem. Our computational results demonstrate that our method solves very large problem instances (m = 30,000 and n = 30) to a high degree of accuracy in under 30 seconds on a personal computer.

Similar Items