support vector
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Overlapping Clustering Models, and One (class) SVM to Bind Them All
Xueyu Mao, Purnamrita Sarkar, Deepayan Chakrabarti
Neural Information Processing Systems http://nips.cc/
- Asia > Middle East > Jordan (0.04)
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- Health & Medicine (0.67)
- Education (0.46)
- North America > United States > California > Alameda County > Berkeley (0.04)
- North America > Canada (0.04)
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Deep Support Vectors
Deep learning has achieved tremendous success. However, unlike SVMs, which provide direct decision criteria and can be trained with a small dataset, it still has significant weaknesses due to its requirement for massive datasets during training and the black-box characteristics on decision criteria.
Overlapping Clustering Models, and One (class) SVM to Bind Them All
Xueyu Mao, Purnamrita Sarkar, Deepayan Chakrabarti
Neural Information Processing Systems http://nips.cc/
- Asia > Middle East > Jordan (0.04)
- North America > United States > Texas > Travis County > Austin (0.04)
- North America > Canada > Quebec > Montreal (0.04)
Deep Support Vectors
Deep learning has achieved tremendous success.
- North America > United States > Massachusetts > Middlesex County > Cambridge (0.04)
- North America > Canada > British Columbia > Vancouver (0.04)
- Asia > South Korea > Seoul > Seoul (0.04)
- Research Report > New Finding (1.00)
- Research Report > Experimental Study (0.93)
- Health & Medicine (0.67)
- Education (0.46)
StopWasting My Gradients: Practical SVRG
Reza Babanezhad Harikandeh, Mohamed Osama Ahmed, Alim Virani, Mark Schmidt, Jakub Konečný, Scott Sallinen
Neural Information Processing Systems http://nips.cc/
- North America > Canada > British Columbia (0.04)
- North America > United States > Massachusetts > Middlesex County > Cambridge (0.04)
DUOL: A Double Updating Approach for Online Learning
In most online learning algorithms, the weights assigned to the misclassified examples (or support vectors) remain unchanged during the entire learning process. This is clearly insufficient since when a new misclassified example is added to the pool of support vectors, we generally expect it to affect the weights for the existing support vectors. In this paper, we propose a new online learning method, termed Double Updating Online Learning, or DUOL for short. Instead of only assigning a fixed weight to the misclassified example received in current trial, the proposed online learning algorithm also tries to update the weight for one of the existing support vectors. We show that the mistake bound can be significantly improved by the proposed online learning method. Encouraging experimental results show that the proposed technique is in general considerably more effective than the state-of-the-art online learning algorithms.