Title :
Generalized SMO Algorithm for SVM-Based Multitask Learning
Author :
Feng Cai ; Cherkassky, Vladimir
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Minnesota, Minneapolis, MN, USA
fDate :
6/1/2012 12:00:00 AM
Abstract :
Exploiting additional information to improve traditional inductive learning is an active research area in machine learning. In many supervised-learning applications, training data can be naturally separated into several groups, and incorporating this group information into learning may improve generalization. Recently, Vapnik proposed a general approach to formalizing such problems, known as “learning with structured data” and its support vector machine (SVM) based optimization formulation called SVM+. Liang and Cherkassky showed the connection between SVM+ and multitask learning (MTL) approaches in machine learning, and proposed an SVM-based formulation for MTL called SVM+MTL for classification. Training the SVM+MTL classifier requires the solution of a large quadratic programming optimization problem which scales as O(n3) with sample size n. So there is a need to develop computationally efficient algorithms for implementing SVM+MTL. This brief generalizes Platt´s sequential minimal optimization (SMO) algorithm to the SVM+MTL setting. Empirical results show that, for typical SVM+MTL problems, the proposed generalized SMO achieves over 100 times speed-up, in comparison with general-purpose optimization routines.
Keywords :
data structures; learning (artificial intelligence); quadratic programming; support vector machines; MTL; Platt sequential minimal optimization; SVM based multitask learning; data structure; generalized SMO algorithm; group information; inductive learning; machine learning; multitask learning; optimization formulation; quadratic programming optimization problem; supervised learning applications; support vector machine; Machine learning; Optimization; Support vector machines; Training; Training data; Vectors; Zirconium; ${rm SVM}{+}$; Classification; learning with structured data; multitask learning; quadratic optimization; sequential minimal optimization; support vector machine (SVM);
Journal_Title :
Neural Networks and Learning Systems, IEEE Transactions on
DOI :
10.1109/TNNLS.2012.2187307
