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SAC
2011
ACM
2011
ACM
A quasi-Newton acceleration for high-dimensional optimization algorithms
Abstract In many statistical problems, maximum likelihood estimation by an EM or MM algorithm suffers from excruciatingly slow convergence. This tendency limits the application of these algorithms to modern high-dimensional problems in data mining, genomics, and imaging. Unfortunately, most existing acceleration techniques are ill-suited to complicated models involving large numbers of parameters. The squared iterative methods (SQUAREM) recently proposed by Varadhan and Roland constitute one notable exception. This paper presents a new quasi-Newton acceleration scheme that requires only modest increments in computation per iteration and overall storage and rivals or surpasses the performance of SQUAREM on several representative test problems. Keywords Maximum likelihood · Multivariate t · Admixture models · Imaging · Generalized eigenvalues
Real-time TrafficApplied Computing | Maximum Likelihood Estimation | Representative Test Problems | SAC 2011 | Squared Iterative Methods |
| Added | 14 May 2011 |
| Updated | 14 May 2011 |
| Type | Journal |
| Year | 2011 |
| Where | SAC |
| Authors | Hua Zhou, David Alexander, Kenneth Lange |
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