dimensionality reduction for data mining12 feature extraction feature reduction refers to the...
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Dimensionality Reduction for Data Mining
- Techniques, Applications and Trends
Lei YuBinghamton University
Jieping Ye, Huan LiuArizona State University
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Outline
Introduction to dimensionality reductionFeature selection (part I)
BasicsRepresentative algorithmsRecent advancesApplications
Feature extraction (part II)Recent trends in dimensionality reduction
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Why Dimensionality Reduction?
It is so easy and convenient to collect dataAn experiment
Data is not collected only for data miningData accumulates in an unprecedented speedData preprocessing is an important part for effective machine learning and data miningDimensionality reduction is an effective approach to downsizing data
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Most machine learning and data mining techniques may not be effective for high-dimensional data
Curse of DimensionalityQuery accuracy and efficiency degrade rapidly as the dimension increases.
The intrinsic dimension may be small. For example, the number of genes responsible for a certain type of disease may be small.
Why Dimensionality Reduction?
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Visualization: projection of high-dimensional data onto 2D or 3D.
Data compression: efficient storage and retrieval.
Noise removal: positive effect on query accuracy.
Why Dimensionality Reduction?
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Application of Dimensionality Reduction
Customer relationship managementText miningImage retrievalMicroarray data analysisProtein classificationFace recognitionHandwritten digit recognitionIntrusion detection
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Document Classification
Internet
ACM Portal PubMedIEEE Xplore
Digital Libraries
Web Pages Emails
Task: To classify unlabeled documents into categoriesChallenge: thousands of termsSolution: to apply dimensionality reduction
D1
D2
Sports
T1 T2 ….…… TN
12 0 ….…… 6
DM
C
Travel
Jobs
… … …
Terms
Documents3 10 ….…… 28
0 11 ….…… 16…
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Gene Expression Microarray Analysis
Task: To classify novel samples into known disease types (disease diagnosis)Challenge: thousands of genes, few samplesSolution: to apply dimensionality reduction
Image Courtesy of Affymetrix
Expression Microarray
Expression Microarray Data Set
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Other Types of High-Dimensional Data
Face images Handwritten digits
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Major Techniques of Dimensionality Reduction
Feature selectionDefinitionObjectives
Feature Extraction (reduction)DefinitionObjectives
Differences between the two techniques
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Feature Selection
DefinitionA process that chooses an optimal subset of features according to a objective function
ObjectivesTo reduce dimensionality and remove noiseTo improve mining performance
Speed of learningPredictive accuracySimplicity and comprehensibility of mined results
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Feature Extraction
Feature reduction refers to the mapping of the original high-dimensional data onto a lower-dimensional spaceGiven a set of data points of p variablesCompute their low-dimensional representation:
Criterion for feature reduction can be different based on different problem settings.
Unsupervised setting: minimize the information lossSupervised setting: maximize the class discrimination
{ }nxxx ,,, 21 L
)( dpyx pi
di <<ℜ∈→ℜ∈
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Feature Reduction vs. Feature Selection
Feature reductionAll original features are usedThe transformed features are linear combinations of the original features
Feature selectionOnly a subset of the original features are selected
Continuous versus discrete
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Outline
Introduction to dimensionality reductionFeature selection (part I)
BasicsRepresentative algorithmsRecent advancesApplications
Feature extraction (part II)Recent trends in dimensionality reduction
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Basics
Definitions of subset optimalityPerspectives of feature selection
Subset search and feature rankingFeature/subset evaluation measuresModels: filter vs. wrapperResults validation and evaluation
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Subset Optimality for Classification
A minimum subset that is sufficient to construct a hypothesis consistent with the training examples (Almuallim and Dietterich, AAAI, 1991)
Optimality is based on training setThe optimal set may overfit the training data
A minimum subset G such that P(C|G) is equal or as close as possible to P(C|F) (Koller and Sahami, ICML, 1996)
Optimality is based on the entire populationOnly training part of the data is available
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An Example for Optimal Subset
Data set (whole set)Five Boolean featuresC = F1∨F2
F3 = ┐F2 , F5 = ┐F4
Optimal subset:{F1, F2} or {F1, F3}
Combinatorial nature of searching for an optimal subset
F1 F2 F3 F4 F5 C0 0 1 0 1 0
1 0 1 0 1 11 1 0 0 1 10 0 1 1 0 00 1 0 1 0 11 0 1 1 0 11 1 0 1 0 1
0 1 0 0 1 1
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A Subset Search Problem
An example of search space (Kohavi & John 1997)
Forward Backward
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Different Aspects of Search
Search starting pointsEmpty setFull set Random point
Search directionsSequential forward selectionSequential backward eliminationBidirectional generationRandom generation
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Different Aspects of Search (Cont’d)
Search StrategiesExhaustive/complete searchHeuristic searchNondeterministic search
Combining search directions and strategies
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Illustrations of Search Strategies
Depth-first search Breadth-first search
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Feature Ranking
Weighting and ranking individual featuresSelecting top-ranked ones for feature selectionAdvantages
Efficient: O(N) in terms of dimensionality NEasy to implement
DisadvantagesHard to determine the thresholdUnable to consider correlation between features
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Evaluation Measures for Ranking and Selecting Features
The goodness of a feature/feature subset is dependent on measuresVarious measures
Information measures (Yu & Liu 2004, Jebara & Jaakkola 2000)
Distance measures (Robnik & Kononenko 03, Pudil & Novovicov 98)
Dependence measures (Hall 2000, Modrzejewski 1993)
Consistency measures (Almuallim & Dietterich 94, Dash & Liu 03)
Accuracy measures (Dash & Liu 2000, Kohavi&John 1997)
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Illustrative Data Set
Sunburn data
Priors and class conditional probabilities
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Information Measures
Entropy of variable X
Entropy of X after observing Y
Information Gain
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Consistency Measures
Consistency measuresTrying to find a minimum number of features that separate classes as consistently as the full set canAn inconsistency is defined as two instances having the same feature values but different classes
E.g., one inconsistency is found between instances i4 and i8 if we just look at the first two columns of the data table (Slide 24)
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Accuracy Measures
Using classification accuracy of a classifier as an evaluation measureFactors constraining the choice of measures
Classifier being usedThe speed of building the classifier
Compared with previous measuresDirectly aimed to improve accuracyBiased toward the classifier being usedMore time consuming
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Models of Feature Selection
Filter modelSeparating feature selection from classifier learningRelying on general characteristics of data (information, distance, dependence, consistency)No bias toward any learning algorithm, fast
Wrapper model Relying on a predetermined classification algorithmUsing predictive accuracy as goodness measureHigh accuracy, computationally expensive
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Filter Model
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Wrapper Model
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How to Validate Selection Results
Direct evaluation (if we know a priori …)Often suitable for artificial data setsBased on prior knowledge about data
Indirect evaluation (if we don’t know …)Often suitable for real-world data setsBased on a) number of features selected, b) performance on selected features (e.g., predictive accuracy, goodness of resulting clusters), and c) speed
(Liu & Motoda 1998)
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Methods for Result Evaluation
Learning curvesFor results in the form of a ranked list of features
Before-and-after comparisonFor results in the form of a minimum subset
Comparison using different classifiersTo avoid learning bias of a particular classifier
Repeating experimental resultsFor non-deterministic results
Number of Features
AccuracyFor one ranked list
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Representative Algorithms for Classification
Filter algorithmsFeature ranking algorithms
Example: Relief (Kira & Rendell 1992)
Subset search algorithms Example: consistency-based algorithms
Focus (Almuallim & Dietterich, 1994)
Wrapper algorithms Feature ranking algorithms
Example: SVMSubset search algorithms
Example: RFE
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Relief Algorithm
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Focus Algorithm
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Representative Algorithms for Clustering
Filter algorithmsExample: a filter algorithm based on entropy measure (Dash et al., ICDM, 2002)
Wrapper algorithms Example: FSSEM – a wrapper algorithm based on EM (expectation maximization) clustering algorithm (Dy and Brodley, ICML, 2000)
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Effect of Features on Clustering
Example from (Dash et al., ICDM, 2002)Synthetic data in (3,2,1)-dimensional spaces
75 points in three dimensionsThree clusters in F1-F2 dimensionsEach cluster having 25 points
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Two Different Distance Histograms of Data
Example from (Dash et al., ICDM, 2002)Synthetic data in 2-dimensional space
Histograms record point-point distancesFor data with 20 clusters (left), the majority of the intra-cluster distances are smaller than the majority of the inter-cluster distances
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An Entropy based Filter Algorithm
Basic ideasWhen clusters are very distinct, intra-cluster and inter-cluster distances are quite distinguishableEntropy is low if data has distinct clusters and high otherwise
Entropy measureSubstituting probability with distance Dij
Entropy is 0.0 for minimum distance 0.0 or maximum 1.0 and is 1.0 for the mean distance 0.5
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FSSEM Algorithm
EM ClusteringTo estimate the maximum likelihood mixture model parameters and the cluster probabilities of each data pointEach data point belongs to every cluster with some probability
Feature selection for EMSearching through feature subsetsApplying EM on each candidate subsetEvaluating goodness of each candidate subset based on the goodness of resulting clusters
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Guideline for Selecting Algorithms
A unifying platform (Liu and Yu 2005)
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Handling High-dimensional Data
High-dimensional dataAs in gene expression microarray analysis, text categorization, …With hundreds to tens of thousands of featuresWith many irrelevant and redundant features
Recent research resultsRedundancy based feature selection
Yu and Liu, ICML-2003, JMLR-2004
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Limitations of Existing Methods
Individual feature evaluation Focusing on identifying relevant features without handling feature redundancyTime complexity: O(N)
Feature subset evaluationRelying on minimum feature subset heuristics to implicitly handling redundancy while pursuing relevant featuresTime complexity: at least O(N2)
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Goals
High effectivenessAble to handle both irrelevant and redundant features Not pure individual feature evaluation
High efficiencyLess costly than existing subset evaluation methodsNot traditional heuristic search methods
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Our Solution – A New Framework of Feature Selection
A view of feature relevance and redundancy A traditional framework of feature selection
A new framework of feature selection
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Approximation
Reasons for approximationSearching for an optimal subset is combinatorial Over-searching on training data can cause over-fitting
Two steps of approximationTo approximately find the set of relevant featuresTo approximately determine feature redundancy among relevant features
Correlation-based measureC-correlation (feature Fi and class C) F-correlation (feature Fi and Fj ) Fi Fj C
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Approximate redundancy criterionFj is redundant to Fi iffSU(Fi , C) ≥ SU(Fj , C) and SU(Fi , Fj ) ≥ SU(F j , C)
Predominant feature: not redundant to any feature in the current set
F2 F4 F5F1 F3
F1
F2
F3 F4
F5Hard to decide redundancy Redundancy criterionWhich one to keep
Determining Redundancy
Fi Fj C
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FCBF (Fast Correlation-Based Filter)
Step 1: Calculate SU value for each feature, order them, select relevant features based on a thresholdStep 2: Start with the first feature to eliminate all features that are redundant to itRepeat Step 2 with the next remaining feature until the end of list
Step 1: O(N)Step 2: average case O(NlogN)
F2 F4 F5F1 F3
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Real-World Applications
Customer relationship managementNg and Liu, 2000 (NUS)
Text categorizationYang and Pederson, 1997 (CMU)Forman, 2003 (HP Labs)
Image retrievalSwets and Weng, 1995 (MSU)Dy et al., 2003 (Purdue University)
Gene expression microarrray data analysisGolub et al., 1999 (MIT)Xing et al., 2001 (UC Berkeley)
Intrusion detectionLee et al., 2000 (Columbia University)
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Text Categorization
Text categorizationAutomatically assigning predefined categories to new text documentsOf great importance given massive on-line text from WWW, Emails, digital libraries…
Difficulty from high-dimensionalityEach unique term (word or phrase) representing a feature in the original feature spaceHundreds or thousands of unique terms for even a moderate-sized text collection
Desirable to reduce the feature space without sacrificing categorization accuracy
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Feature Selection in Text Categorization
A comparative study in (Yang and Pederson, ICML, 1997)5 metrics evaluated and compared
Document Frequency (DF), Information Gain (IG), Mutual Information (MU), X2 statistics (CHI), Term Strength (TS)IG and CHI performed the best
Improved classification accuracy of k-NN achieved after removal of up to 98% unique terms by IG
Another study in (Forman, JMLR, 2003)12 metrics evaluated on 229 categorization problemsA new metric, Bi-Normal Separation, outperformed others and improved accuracy of SVMs
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Content-Based Image Retrieval (CBIR)Image retrieval
An explosion of image collections from scientific, civil, military equipmentsNecessary to index the images for efficient retrieval
Content-based image retrieval (CBIR)Instead of indexing images based on textual descriptions (e.g., keywords, captions)Indexing images based on visual contents (e.g., color, texture, shape)
Traditional methods for CBIRUsing all indexes (features) to compare imagesHard to scale to large size image collections
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Feature Selection in CBIR
An application in (Swets and Weng, ISCV, 1995)A large database of widely varying real-world objects in natural settings Selecting relevant features to index images for efficient retrieval
Another application in (Dy et al., Trans. PRMI, 2003)A database of high resolution computed tomography lung imagesFSSEM algorithm applied to select critical characterizing featuresRetrieval precision improved based on selected features
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Gene Expression Microarray Analysis
Microarray technologyEnabling simultaneously measuring the expression levels for thousands of genes in a single experimentProviding new opportunities and challenges for data mining
Microarray data
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Motivation for Gene (Feature) Selection
Data characteristics in sample classification
High dimensionality (thousands of genes)Small sample size (often less than 100 samples)
ProblemsCurse of dimensionalityOverfitting the training data
Data mining tasks
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Feature Selection in Sample Classification
An application in (Golub, Science, 1999)On leukemia data (7129 genes, 72 samples)Feature ranking method based on linear correlationClassification accuracy improved by 50 top genes
Another application in (Xing et al., ICML, 2001)A hybrid of filter and wrapper method
Selecting best subset of each cardinality based on information gain ranking and Markov blanket filteringComparing between subsets of the same cardinality using cross-validation
Accuracy improvements observed on the same leukemia data
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Intrusion Detection via Data Mining
Network-based computer systemsPlaying increasingly vital roles in modern societyTargets of attacks from enemies and criminals
Intrusion detection is one way to protect computer systemsA data mining framework for intrusion detection in (Lee et al., AI Review, 2000)
Audit data analyzed using data mining algorithms to obtain frequent activity patternsClassifiers based on selected features used to classify an observed system activity as “legitimate” or “intrusive”
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Dimensionality Reduction for Data Mining
- Techniques, Applications and Trends
(Part II)
Lei YuBinghamton University
Jieping Ye, Huan LiuArizona State University
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Outline
Introduction to dimensionality reductionFeature selection (part I)Feature extraction (part II)
BasicsRepresentative algorithmsRecent advancesApplications
Recent trends in dimensionality reduction
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Feature Reduction Algorithms
UnsupervisedLatent Semantic Indexing (LSI): truncated SVDIndependent Component Analysis (ICA)Principal Component Analysis (PCA)Manifold learning algorithms
Supervised Linear Discriminant Analysis (LDA)Canonical Correlation Analysis (CCA)Partial Least Squares (PLS)
Semi-supervised
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Linear Latent Semantic Indexing (LSI): truncated SVDPrincipal Component Analysis (PCA)Linear Discriminant Analysis (LDA)Canonical Correlation Analysis (CCA)Partial Least Squares (PLS)
NonlinearNonlinear feature reduction using kernelsManifold learning
Feature Reduction Algorithms
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Principal Component Analysis
Principal component analysis (PCA) Reduce the dimensionality of a data set by finding a new set of variables, smaller than the original set of variablesRetains most of the sample's information.
By information we mean the variation present in the sample, given by the correlations between the original variables.
The new variables, called principal components (PCs), are uncorrelated, and are ordered by the fraction of the total information each retains.
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Geometric Picture of Principal Components (PCs)
2z
1z
• the 1st PC is a minimum distance fit to a line in X space• the 2nd PC is a minimum distance fit to a line in the plane perpendicular to the 1st PC
1z
PCs are a series of linear least squares fits to a sample,each orthogonal to all the previous.
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Algebraic Derivation of PCs
Main steps for computing PCsForm the covariance matrix S.
Compute its eigenvectors:
The first p eigenvectors form the p PCs.
The transformation G consists of the p PCs.
],,,[ 21 paaaG L←
{ }diia 1=
{ }piia 1=
.point A test pTd xGx ℜ∈→ℜ∈
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Optimality Property of PCA
2
FXX −
The matrix G consisting of the first p eigenvectors of the covariance matrix S solves the following min problem:
Main theoretical result:
pF
TG IGXGGXpd =−×ℜ∈
T2G subject to )(min
reconstruction error
PCA projection minimizes the reconstruction error among all linear projections of size p.
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Applications of PCA
Eigenfaces for recognition. Turk and Pentland. 1991.Principal Component Analysis for clustering gene expression data. Yeung and Ruzzo. 2001. Probabilistic Disease Classification of Expression-Dependent Proteomic Data from Mass Spectrometry of Human Serum. Lilien. 2003.
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Motivation for Non-linear PCA using Kernels
Linear projections will not detect thepattern.
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Nonlinear PCA using Kernels
Traditional PCA applies linear transformationMay not be effective for nonlinear data
Solution: apply nonlinear transformation to potentially very high-dimensional space.
Computational efficiency: apply the kernel trick.Require PCA can be rewritten in terms of dot product.
)(: xx φφ →
)()(),( jiji xxxxK φφ •=
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Canonical Correlation Analysis (CCA)
CCA was developed first by H. Hotelling.H. Hotelling. Relations between two sets of variates. Biometrika, 28:321-377, 1936.
CCA measures the linear relationship between two multidimensional variables.CCA finds two bases, one for each variable, that are optimal with respect to correlations.Applications in economics, medical studies, bioinformatics and other areas.
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Canonical Correlation Analysis (CCA)
Two multidimensional variablesTwo different measurement on the same set of objects
Web images and associated textProtein (or gene) sequences and related literature (text)Protein sequence and corresponding gene expression In classification: feature vector and class label
Two measurements on the same object are likely to be correlated.
May not be obvious on the original measurements.Find the maximum correlation on transformed space.
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Canonical Correlation Analysis (CCA)
TXXW
Correlation
TYYW
measurement transformationTransformed data
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Problem Definition
Find two sets of basis vectors, one for x and the other for y, such that the correlationsbetween the projections of the variables onto these basis vectors are maximized.
: and yx ww
Given
Compute two basis vectors
><→ ywy y ,
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Problem Definition
Compute the two basis vectors so that the correlations of the projections onto these vectors are maximized.
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Algebraic Derivation of CCA
The optimization problem is equivalent to
Tyy
Tyx
Txx
Txy
YYCYXC
XXCXYC
==
==
,
,where
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Algebraic Derivation of CCA
In general, the k-th basis vectors are given by the k–th eigenvector of
The two transformations are given by
[ ][ ]ypyyY
xpxxX
wwwW
wwwW
L
L
,,
,,
21
21
=
=
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Nonlinear CCA using Kernels
βα
YwXw
XYC
XXC
y
x
Txy
Txx
==
=
=
ββααβαρ
βα YYYYXXXXYXYX
TTTTTT
TTT
,max=
Only inner productsAppear
Key: rewrite the CCA formulation in terms of inner products.
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Applications in Bioinformatics
CCA can be extended to multiple views of the data
Multiple (larger than 2) data sources
Two different ways to combine different data sources
Multiple CCAConsider all pairwise correlations
Integrated CCADivide into two disjoint sources
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Applications in Bioinformatics
Source: Extraction of Correlated Gene Clusters from Multiple Genomic Data by Generalized Kernel Canonical Correlation Analysis. ISMB’03
http://cg.ensmp.fr/~vert/publi/ismb03/ismb03.pdf
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Multidimensional scaling (MDS)
• MDS: Multidimensional scaling• Borg and Groenen, 1997
• MDS takes a matrix of pair-wise distances and gives a mapping to Rd. It finds an embedding that preserves the interpoint distances, equivalent to PCA when those distance are Euclidean.• Low dimensional data for visualization
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Classical MDS
( )( )
ijjiee
ijji
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xxD
)()(2
matrix distance:2
μμ −•−−=⇒
−=Te ee
nIP 1
:matrix Centering
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Classical MDS
(Geometric Methods for Feature Extraction and Dimensional Reduction – Burges, 2005)
( ) ( )
( )( )5.0
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of rows thefrom,,,1for, Choose2
? find how to D,Given :Problem
)()(2matrix distance:
ddi
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eei
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UUUUDDPP
x
xxDPPxxD
Σ=⇒
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μμ
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Classical MDS
If Euclidean distance is used in constructing D, MDS is equivalent to PCA.The dimension in the embedded space is d, if the rank equals to d.If only the first p eigenvalues are important (in terms of magnitude), we can truncate the eigen-decomposition and keep the first p eigenvalues only.
Approximation error
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Classical MDS
So far, we focus on classical MDS, assuming D is the squared distance matrix.
Metric scalingHow to deal with more general dissimilarity measures
Non-metric scaling ( )
definite-semi positibe benot may :scaling Nonmetric
)()(2 :scaling Metricee
ijjiee
DPP
xxDPP
−
−•−=− μμ
Solutions: (1) Add a large constant to its diagonal.(2) Find its nearest positive semi-definite matrix
by setting all negative eigenvalues to zero.
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Manifold Learning
Discover low dimensional representations (smooth manifold) for data in high dimension.A manifold is a topological space which is locally EuclideanAn example of nonlinear manifold:
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Deficiencies of Linear Methods
Data may not be best summarized by linear combination of features
Example: PCA cannot discover 1D structure of a helix
-1-0.5
00.5
1
-1-0.5
0
0.510
5
10
15
20
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Intuition: how does your brain store these pictures?
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Brain Representation
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Brain Representation
Every pixel?Or perceptually meaningful structure?
Up-down poseLeft-right poseLighting direction
So, your brain successfully reduced the high-dimensional inputs to an intrinsically 3-dimensional manifold!
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Nonlinear Approaches- Isomap
Constructing neighbourhood graph GFor each pair of points in G, Computing shortest path distances ---- geodesic distances.Use Classical MDS with geodesic distances.Euclidean distance Geodesic distance
Josh. Tenenbaum, Vin de Silva, John langford 2000
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Sample Points with Swiss Roll
Altogether there are 20,000 points in the “Swiss roll” data set. We sample 1000 out of 20,000.
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Construct Neighborhood Graph G
K- nearest neighborhood (K=7)DG is 1000 by 1000 (Euclidean) distance matrix of two
neighbors (figure A)
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Compute All-Points Shortest Path in G
Now DG is 1000 by 1000 geodesic distance matrix of two arbitrary points along the manifold (figure B)
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Find a d-dimensional Euclidean space Y (Figure c) to preserve the pariwise diatances.
Use MDS to Embed Graph in Rd
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The Isomap Algorithm
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• Nonlinear• Globally optimal
• Still produces globally optimal low-dimensional Euclidean representation even though input space is highly folded, twisted, or curved.
• Guarantee asymptotically to recover the true dimensionality.
Isomap: Advantages
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• May not be stable, dependent on topology of data
• Guaranteed asymptotically to recover geometric structure of nonlinear manifolds– As N increases, pairwise distances provide better
approximations to geodesics, but cost more computation– If N is small, geodesic distances will be very inaccurate.
Isomap: Disadvantages
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Characterictics of a Manifold
M
x1
x2R2
Rn
z
x
x: coordinate for z
Locally it is a linear patch
Key: how to combine all localpatches together?
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LLE: Intuition
Assumption: manifold is approximately “linear” when viewed locally, that is, in a small neighborhood
Approximation error, e(W), can be made small
Local neighborhood is effected by the constraint Wij=0 if zi is not a neighbor of zj
A good projection should preserve this local geometric property as much as possible
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We expect each data point and its neighbors to lie on or closeto a locally linear patch of the
manifold.
Each point can be written as a linear combination of its neighbors.The weights chosen tominimize the reconstructionError.
LLE: Intuition
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The weights that minimize the reconstruction errors are invariant to rotation, rescaling and translation of the data points.
Invariance to translation is enforced by adding the constraint that the weights sum to one.The weights characterize the intrinsic geometric properties of each neighborhood.
The same weights that reconstruct the data points in D dimensions should reconstruct it in the manifold in d dimensions.
Local geometry is preserved
LLE: Intuition
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LLE: Intuition
Use the same weights from the original space
Low-dimensional embedding
the i-th row of W
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Local Linear Embedding (LLE)
Assumption: manifold is approximately “linear” when viewed locally, that is, in a small neighborhoodApproximation error, ε(W), can be made small
Meaning of W: a linear representation of every data point by its neighbors
This is an intrinsic geometrical property of the manifoldA good projection should preserve this geometric property as much as possible
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Constrained Least Square Problem
Compute the optimal weight for each point individually:
Neightbors of x
Zero for all non-neighbors of x
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Finding a Map to a Lower Dimensional Space
Yi in Rk: projected vector for Xi
The geometrical property is best preserved if the error below is small
Y is given by the eigenvectors of the lowest d non-zero eigenvalues of the matrix
Use the same weightscomputed above
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The LLE Algorithm
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Examples
Images of faces mapped into the embedding space described by the first two coordinates of LLE. Representative faces are shown next to circled points. The bottom images correspond to points along the top-right path (linked by solid line) illustrating one particular mode of variability in pose and expression.
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Experiment on LLE
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Laplacian Eigenmaps
Laplacian Eigenmaps for Dimensionality Reduction and Data Representation
M. Belkin, P. Niyogi
Key stepsBuild the adjacency graphChoose the weights for edges in the graph (similarity)Eigen-decomposition of the graph laplacianForm the low-dimensional embedding
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Step 1: Adjacency Graph Construction
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Step 2: Choosing the Weight
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Steps: Eigen-Decomposition
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Step 4: Embedding
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Justification
Consider the problem of mapping the graph to a line so that pairs of pointswith large similarity (weight) stay as close as possible.
A reasonable criterion for choosing the mapping is to minimize
ii yx →
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Justification
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An Example
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A Unified framework for ML
Out-of-Sample Extensions for LLE, Isomap, MDS, Eigenmaps, and Spectral Clustering. Bengio et al., 2004
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Flowchart of the Unified Framework
Construct neighborhoodGraph (K NN)
Form similarity matrix M
Normalize M to Compute the eigenvectors of
Construct the embeddingbased on the eigenvectors
optional
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Outline
Introduction to dimensionality reductionFeature selection (part I)Feature extraction (part II)
BasicsRepresentative algorithmsRecent advancesApplications
Recent trends in dimensionality reduction
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Trends in Dimensionality Reduction
Dimensionality reduction for complex dataBiological dataStreaming data
Incorporating prior knowledgeSemi-supervised dimensionality reduction
Combining feature selection with extractionDevelop new methods which achieve feature “selection” while efficiently considering feature interaction among all original features
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A set of features are interacting with each, if they become more relevant when considered together than considered individually.A feature could lose its relevance due to the absence of any other feature interacting with it, or irreducibility [Jakulin05].
:
Feature Interaction
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Feature Interaction
Two examples of feature interaction: MONK1 & Corral data.
Existing efficient feature selection algorithms can not handle feature interaction very well
MONK1: Y :(A1=A2)V(A5==1)
SU(C,A1)=0 SU(C,A2)=0
Corral: Y :(A0^A1)V(B0^B1)
SU(C,A1&A2)=0.22
Feature Interaction
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Illustration using synthetic data
MONKs data, for class C = 1(1) MONK1:(A1 = A2) or (A5 = 1); (2) MONK2: Exactly two Ai = 1; (all features are relevant) (3) MONK3: (A5 = 3 and A4 = 1) or (A5 ≠4 and A2 ≠ 3)
Experiment with FCBF, ReliefF, CFS, FOCUS
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Existing efficient feature selection algorithms usually assume feature independence. Others attempt to explicitly address Feature Interactions by finding them.
Find out all Feature Interaction is impractical.
Some existing efficient algorithm can only (partially) address low order Feature Interaction, 2 or 3-way Feature Interaction.
Existing Solutions for Feature Interaction
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Handle Feature Interactions (INTERACT)
• Designing a feature scoring metric based on the consistency hypothesis: c-contribution.
• Designing a data structure to facilitate the fast update of c-contribution
• Selecting a simple and fast search schema
• INTERACT is a backward elimination algorithm [Zhao-Liu07I]
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Semi-supervised Feature Selection
For handling small labeled-sample problemLabeled data is few, but unlabeled data is abundantNeither supervised nor unsupervised works well
Using both labeled and unlabeled data
:
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Measure Feature Relevance
Construct cluster indicator from features.Measure the fitness of the cluster indicator using both labeled and unlabeled data.sSelect algorithm uses spectral analysis [Zhao-Liu07S].
Transformation Function:
Relevance Measurement:
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References
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References
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References
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References
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References
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References
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References
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References
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Reference
Z. Zhao, H. Liu, Searching for Interacting Features, IJCAI 2007A. Jakulin, Machine learning based on attribute interactions, Ph.D. thesis, University of Ljubljana 2005.Z. Zhao, H. Liu, Semi-supervised Feature Selection via Spectral Analysis, SDM 2007