SOE
Chow Institute
User Center
中
EN
About WISE
People
Committee of Academic Consultants
Faculty Directory
Staff Directory
Research
Publications
Working Papers
Facilities&Centers
Education
Overview
Undergraduate Programs
Graduate Programs
Study-Abroad MA Programs
Exchange Programs
Executive Education
News & Events
News
Announcements
Conferences
Seminars & Conferences
Job Openings
SOE
Chow Institute
User Center
中
EN
About WISE
Introduction to WISE
Contact Us
Map and Direction
People
Committee of Academic Consultants
Faculty Directory
Staff Directory
Research
Publications
Working Papers
Facilities&Centers
Education
Overview
Undergraduate Programs
Graduate Programs
Study-Abroad MA Programs
Exchange Programs
Executive Education
News & Events
News
Announcements
Conferences
Seminars & Conferences
Job Openings
Research
Home
->
Research
->
Publications
->
Content
Research
Publications
Working Papers
Facilities&Centers
Finance & Economics Experimental Lab
MOE Key Lab in Econometrics
Fujian Provincial Key Lab in Statistics
Center for Econometrics Research
Center for Financial Research
Center for Research in Labor Economics
Center for Macroeconomics Research
Center for Statistics Research
Center for Information Technology
SAS Center for Excellence in Econometrics
High-Speed Computing Cluster
Feature Screening via Distance Correlation Learning
Id:2172
Date:20131014
Status:published
ClickTimes:
作者
Runze Li, Wei Zhong, Liping Zhu
正文
This article is concerned with screening features in ultrahigh-dimensional data analysis, which has become increasingly important in diverse scientific fields. We develop a sure independence screening procedure based on the distance correlation (DC-SIS). The DC-SIS can be implemented as easily as the sure independence screening (SIS) procedure based on the Pearson correlation proposed by Fan and Lv. However, the DC-SIS can significantly improve the SIS. Fan and Lv established the sure screening property for the SIS based on linear models, but the sure screening property is valid for the DC-SIS under more general settings, including linear models. Furthermore, the implementation of the DC-SIS does not require model specification (e.g., linear model or generalized linear model) for responses or predictors. This is a very appealing property in ultrahigh-dimensional data analysis. Moreover, the DC-SIS can be used directly to screen grouped predictor variables and multivariate response variables. We establish the sure screening property for the DC-SIS, and conduct simulations to examine its finite sample performance. A numerical comparison indicates that the DC-SIS performs much better than the SIS in various models. We also illustrate the DC-SIS through a real-data example.
JEL-Codes:
关键词:
Sure independence screening; Sure screening property; Ultrahigh dimensionality; Variable selection.
TOP
