<--- Back to Details
First PageDocument Content
Statistics / Multivariate statistics / Data analysis / Machine learning / Statistical classification / Dimension reduction / Support vector machine / Multidimensional scaling / Similarity measure / Principal component analysis / K-nearest neighbors algorithm / Positive-definite kernel
Date: 2011-05-05 21:16:05
Statistics
Multivariate statistics
Data analysis
Machine learning
Statistical classification
Dimension reduction
Support vector machine
Multidimensional scaling
Similarity measure
Principal component analysis
K-nearest neighbors algorithm
Positive-definite kernel

Adaptively Learning the Crowd Kernel Omer Tamuz Microsoft Research New England and Weizmann Institute of Science Ce Liu Microsoft Research New England

Add to Reading List

Source URL: research.microsoft.com

Download Document from Source Website

File Size: 3,76 MB

Share Document on Facebook

Similar Documents

Principal Component Analysis on non-Gaussian Dependent Data Fang Han Johns Hopkins University, 615 N.Wolfe Street, Baltimore, MDUSA Han Liu Princeton University, 98 Charlton Street, Princeton, NJUSA

Principal Component Analysis on non-Gaussian Dependent Data Fang Han Johns Hopkins University, 615 N.Wolfe Street, Baltimore, MDUSA Han Liu Princeton University, 98 Charlton Street, Princeton, NJUSA

DocID: 1vdC9 - View Document

Generalized Principal Component Analysis (GPCA)∗ Ren´e Vidal† Yi Ma‡ Shankar Sastry† † Department of EECS, University of California, Berkeley, CA 94720

Generalized Principal Component Analysis (GPCA)∗ Ren´e Vidal† Yi Ma‡ Shankar Sastry† † Department of EECS, University of California, Berkeley, CA 94720

DocID: 1uYRE - View Document

A. Krisciukaitis et al.: Efficiency Evaluation of Autonomic Heart Control by Using the Principal Component Analysis of ECG P-Wave, en 9 en9 Efficiency Evaluation of Autonomic Heart Control by Using

A. Krisciukaitis et al.: Efficiency Evaluation of Autonomic Heart Control by Using the Principal Component Analysis of ECG P-Wave, en 9 en9 Efficiency Evaluation of Autonomic Heart Control by Using

DocID: 1tOkO - View Document

Full Regularization Path for Sparse Principal Component Analysis Alexandre d’Aspremont, Francis Bach & Laurent El Ghaoui, Princeton University, INRIA/ENS Ulm & U.C. Berkeley Support from NSF, DHS and Google.

Full Regularization Path for Sparse Principal Component Analysis Alexandre d’Aspremont, Francis Bach & Laurent El Ghaoui, Princeton University, INRIA/ENS Ulm & U.C. Berkeley Support from NSF, DHS and Google.

DocID: 1tMMK - View Document

Binary Principal Component Analysis in the Netflix Collaborative Filtering Task

Binary Principal Component Analysis in the Netflix Collaborative Filtering Task

DocID: 1tMJC - View Document