Embedding new data points for manifold learning via coordinate propagation

Shiming Xiang; Feiping Nie; Yangqiu Song; Changshui Zhang; Chunxia Zhang

doi:10.1007/s10115-008-0161-3

Embedding new data points for manifold learning via coordinate propagation

Shiming Xiang, Feiping Nie, Yangqiu Song, Changshui Zhang, Chunxia Zhang

Research output: Contribution to journal › Article › peer-review

45 Scopus citations

Abstract

In recent years, a series of manifold learning algorithms have been proposed for nonlinear dimensionality reduction. Most of them can run in a batch mode for a set of given data points, but lack a mechanism to deal with new data points. Here we propose an extension approach, i.e., mapping new data points into the previously learned manifold. The core idea of our approach is to propagate the known coordinates to each of the new data points. We first formulate this task as a quadratic programming, and then develop an iterative algorithm for coordinate propagation. Tangent space projection and smooth splines are used to yield an initial coordinate for each new data point, according to their local geometrical relations. Experimental results and applications to camera direction estimation and face pose estimation illustrate the validity of our approach.

Original language	English
Pages (from-to)	159-184
Number of pages	26
Journal	Knowledge and Information Systems
Volume	19
Issue number	2
DOIs	https://doi.org/10.1007/s10115-008-0161-3
State	Published - May 2009
Externally published	Yes

Keywords

Coordinate propagation
Manifold learning
Out-of-sample
Quadratic programming
Smooth spline
Tangent space projection

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10.1007/s10115-008-0161-3

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AU - Xiang, Shiming

AU - Nie, Feiping

AU - Song, Yangqiu

AU - Zhang, Changshui

AU - Zhang, Chunxia

PY - 2009/5

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AB - In recent years, a series of manifold learning algorithms have been proposed for nonlinear dimensionality reduction. Most of them can run in a batch mode for a set of given data points, but lack a mechanism to deal with new data points. Here we propose an extension approach, i.e., mapping new data points into the previously learned manifold. The core idea of our approach is to propagate the known coordinates to each of the new data points. We first formulate this task as a quadratic programming, and then develop an iterative algorithm for coordinate propagation. Tangent space projection and smooth splines are used to yield an initial coordinate for each new data point, according to their local geometrical relations. Experimental results and applications to camera direction estimation and face pose estimation illustrate the validity of our approach.

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KW - Manifold learning

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Embedding new data points for manifold learning via coordinate propagation

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Keywords

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