Lecture 6: Gaussian Mixture Models (GMM)
|
|
- Amie Hodges
- 5 years ago
- Views:
Transcription
1 Helsinki Institute for Information Technology Lecture 6: Gaussian Mixture Models (GMM) Pedram Daee
2 Outline Gaussian Mixture Models (GMM) Models Model families and parameters Parameter learning for simple models (maximum likelihood) Gaussian CLT Mixtures Multi modal data Parameter learning for GMM Expectation Maximization Applications 2
3 A Gaussian Mixture Model (GMM) is a parametric probability density function represented as a weighted sum of Gaussian component densities... Let s start from the very very beginning 3
4 Goal: describe a set of data with a model and then use the model as the representative of the data What we have: A set of d-dimensional data points Example: Two dimensions: d=2 N=16 X = x 1,, x N x t R d = {x t N } t=1 4
5 Assumptions: There exists a model that describes the data The designer knows the family type of the model, but not its parameters To do: Given the family model, find the best model that fits to the data Meaning: given the distribution family, find the best parameters that fits the distribution to the observed data 5
6 Model families and their parameters: Chi-square Beta Poisson Gaussian (1-d) Gaussian (2-d) 0.25 Binomial v v 2 6
7 Example: Given that we know that data are Gaussian, what kind of Gaussian distribution should we use to represent them? Problem definition: x 1,, x N ~N μ, σ 2 What is the best value for μ? One answer: The μ that maximizes the likelihood function Maximum Likelihood estimate (ML) 7
8 Definition: Likelihood function: ML estimate: Example: x 1,, x N ~N μ, σ 2 Find μ ML L X; θ = P(X; θ) θ ML = arg max L(X; θ) 8
9 Solution for μ ML = arg max L(X; μ, σ 2 ) Picture will be added Side notes: If x 1 and x 2 are independent, then: P(x 1, x 2 ) = P x 1 P(x 2 ) We can maximize the log of a function, instead of the function arg max[f θ + const] = arg max f θ = arg max log f θ 9
10 By using ML we can estimate the parameters of any model, given that we know the model family and we have observed a set of data 10
11 Gaussian (normal) distributions are preferred models for continuous random variables Central limit theorem: Mean of a large number of random variables has an approximately Gaussian distribution Example: A large number of phenomena in the nature, like noise, are also sum of different random factors 11
12 Sometimes it is hard to describe the data with just one model The next reasonable step is to use sum of several models x 1,, x N ~w 1 f 1 θ 1 +w 2 f 2 θ 2 +w 3 f 3 θ 3,where w 1 + w 2 + w 3 = 1 Each model has its own family and parameters We have to estimate both parameters and weights We don t know which data comes from which model => estimating the parameters is very difficult 12
13 Different operating regimes Continuous nonlinearities 13
14 A Gaussian Mixture Model (GMM) is a parametric probability density function represented as a weighted sum of Gaussian component densities. x 1,, x N ~w 1 N μ 1, Σ w M N μ M, Σ M M w i = 1,where i=1 14
15 Problem statement: We need to estimate: λ = w i, μ i, Σ i i = 1,, M GMM: Each data comes from one of the mixtures, which is unknown to us. For each data x t there is a latent parameter z t that indicate from which mixture x is coming from X: observed data, Z: unobserved latent variables {X, Z} : complete data, X: incomplete data 15
16 This time there are two sets of unknowns The parameters of each model The latent variable Z: specifying the mixture component that each data point belongs to It is often intractable to compute the maximum likelihood since the likelihood would be products of sums λ ML = arg max L(X; λ) = arg max P(X; λ) = arg max[ Z P(X, Z; λ) ] One approach to solve this ML estimate is to use Expectation Maximization (EM) algorithm 16
17 Expectation Maximization The EM algorithm is used to find (locally) maximum likelihood parameters of a statistical model in cases where the equations cannot be solved directly. The EM algorithm proceeds from the observation that the following is a way to solve these two sets of equations numerically. One can simply pick arbitrary values for one of the two sets of unknowns, use them to estimate the second set, then use these new values to find a better estimate of the first set, and then keep alternating between the two until the resulting values both converge to fixed points. 17
18 Expectation Maximization EM algorithm: Goal: find λ ML = arg max[log Z P(X, Z; λ)] 1. E-step: Take the expectation over the latent variables, assuming that the unknown parameters are fixed 2. M-step Assume that the latent variables are fixed and solve the maximum likelihood for unknown parameters EM in one equation: λ t+1 = arg max E Z X, λ t log P(X, Z λ) 18
19 Clustering with GMM 19
20 GMM in Matlab doc gmdistribution.fit Example See GMM_test.m 20
21 GMM in Matlab 21
22 Thank You 22
Parametric Unsupervised Learning Expectation Maximization (EM) Lecture 20.a
Parametric Unsupervised Learning Expectation Maximization (EM) Lecture 20.a Some slides are due to Christopher Bishop Limitations of K-means Hard assignments of data points to clusters small shift of a
More informationMachine Learning for Data Science (CS4786) Lecture 12
Machine Learning for Data Science (CS4786) Lecture 12 Gaussian Mixture Models Course Webpage : http://www.cs.cornell.edu/courses/cs4786/2016fa/ Back to K-means Single link is sensitive to outliners We
More informationComputer Vision Group Prof. Daniel Cremers. 6. Mixture Models and Expectation-Maximization
Prof. Daniel Cremers 6. Mixture Models and Expectation-Maximization Motivation Often the introduction of latent (unobserved) random variables into a model can help to express complex (marginal) distributions
More informationMachine Learning. Gaussian Mixture Models. Zhiyao Duan & Bryan Pardo, Machine Learning: EECS 349 Fall
Machine Learning Gaussian Mixture Models Zhiyao Duan & Bryan Pardo, Machine Learning: EECS 349 Fall 2012 1 The Generative Model POV We think of the data as being generated from some process. We assume
More informationPattern Recognition. Parameter Estimation of Probability Density Functions
Pattern Recognition Parameter Estimation of Probability Density Functions Classification Problem (Review) The classification problem is to assign an arbitrary feature vector x F to one of c classes. The
More informationStatistical learning. Chapter 20, Sections 1 4 1
Statistical learning Chapter 20, Sections 1 4 Chapter 20, Sections 1 4 1 Outline Bayesian learning Maximum a posteriori and maximum likelihood learning Bayes net learning ML parameter learning with complete
More informationExpectation Maximization
Expectation Maximization Aaron C. Courville Université de Montréal Note: Material for the slides is taken directly from a presentation prepared by Christopher M. Bishop Learning in DAGs Two things could
More informationPerformance Comparison of K-Means and Expectation Maximization with Gaussian Mixture Models for Clustering EE6540 Final Project
Performance Comparison of K-Means and Expectation Maximization with Gaussian Mixture Models for Clustering EE6540 Final Project Devin Cornell & Sushruth Sastry May 2015 1 Abstract In this article, we explore
More informationLatent Variable Models
Latent Variable Models Stefano Ermon, Aditya Grover Stanford University Lecture 5 Stefano Ermon, Aditya Grover (AI Lab) Deep Generative Models Lecture 5 1 / 31 Recap of last lecture 1 Autoregressive models:
More informationStatistical Pattern Recognition
Statistical Pattern Recognition Expectation Maximization (EM) and Mixture Models Hamid R. Rabiee Jafar Muhammadi, Mohammad J. Hosseini Spring 2014 http://ce.sharif.edu/courses/92-93/2/ce725-2 Agenda Expectation-maximization
More informationLatent Variable View of EM. Sargur Srihari
Latent Variable View of EM Sargur srihari@cedar.buffalo.edu 1 Examples of latent variables 1. Mixture Model Joint distribution is p(x,z) We don t have values for z 2. Hidden Markov Model A single time
More informationLikelihood, MLE & EM for Gaussian Mixture Clustering. Nick Duffield Texas A&M University
Likelihood, MLE & EM for Gaussian Mixture Clustering Nick Duffield Texas A&M University Probability vs. Likelihood Probability: predict unknown outcomes based on known parameters: P(x q) Likelihood: estimate
More informationGaussian Mixture Models
Gaussian Mixture Models Pradeep Ravikumar Co-instructor: Manuela Veloso Machine Learning 10-701 Some slides courtesy of Eric Xing, Carlos Guestrin (One) bad case for K- means Clusters may overlap Some
More informationClustering K-means. Clustering images. Machine Learning CSE546 Carlos Guestrin University of Washington. November 4, 2014.
Clustering K-means Machine Learning CSE546 Carlos Guestrin University of Washington November 4, 2014 1 Clustering images Set of Images [Goldberger et al.] 2 1 K-means Randomly initialize k centers µ (0)
More informationCOMS 4721: Machine Learning for Data Science Lecture 16, 3/28/2017
COMS 4721: Machine Learning for Data Science Lecture 16, 3/28/2017 Prof. John Paisley Department of Electrical Engineering & Data Science Institute Columbia University SOFT CLUSTERING VS HARD CLUSTERING
More informationSYDE 372 Introduction to Pattern Recognition. Probability Measures for Classification: Part I
SYDE 372 Introduction to Pattern Recognition Probability Measures for Classification: Part I Alexander Wong Department of Systems Design Engineering University of Waterloo Outline 1 2 3 4 Why use probability
More informationComposite Hypotheses and Generalized Likelihood Ratio Tests
Composite Hypotheses and Generalized Likelihood Ratio Tests Rebecca Willett, 06 In many real world problems, it is difficult to precisely specify probability distributions. Our models for data may involve
More informationIntroduction to Machine Learning. Maximum Likelihood and Bayesian Inference. Lecturers: Eran Halperin, Yishay Mansour, Lior Wolf
1 Introduction to Machine Learning Maximum Likelihood and Bayesian Inference Lecturers: Eran Halperin, Yishay Mansour, Lior Wolf 2013-14 We know that X ~ B(n,p), but we do not know p. We get a random sample
More informationStatistical Pattern Recognition
Statistical Pattern Recognition Expectation Maximization (EM) and Mixture Models Hamid R. Rabiee Jafar Muhammadi, Mohammad J. Hosseini Spring 203 http://ce.sharif.edu/courses/9-92/2/ce725-/ Agenda Expectation-maximization
More informationLecture 4: Probabilistic Learning
DD2431 Autumn, 2015 1 Maximum Likelihood Methods Maximum A Posteriori Methods Bayesian methods 2 Classification vs Clustering Heuristic Example: K-means Expectation Maximization 3 Maximum Likelihood Methods
More informationLecture 4: Probabilistic Learning. Estimation Theory. Classification with Probability Distributions
DD2431 Autumn, 2014 1 2 3 Classification with Probability Distributions Estimation Theory Classification in the last lecture we assumed we new: P(y) Prior P(x y) Lielihood x2 x features y {ω 1,..., ω K
More informationMachine Learning Techniques for Computer Vision
Machine Learning Techniques for Computer Vision Part 2: Unsupervised Learning Microsoft Research Cambridge x 3 1 0.5 0.2 0 0.5 0.3 0 0.5 1 ECCV 2004, Prague x 2 x 1 Overview of Part 2 Mixture models EM
More informationCMU-Q Lecture 24:
CMU-Q 15-381 Lecture 24: Supervised Learning 2 Teacher: Gianni A. Di Caro SUPERVISED LEARNING Hypotheses space Hypothesis function Labeled Given Errors Performance criteria Given a collection of input
More informationCS Lecture 18. Expectation Maximization
CS 6347 Lecture 18 Expectation Maximization Unobserved Variables Latent or hidden variables in the model are never observed We may or may not be interested in their values, but their existence is crucial
More informationClustering, K-Means, EM Tutorial
Clustering, K-Means, EM Tutorial Kamyar Ghasemipour Parts taken from Shikhar Sharma, Wenjie Luo, and Boris Ivanovic s tutorial slides, as well as lecture notes Organization: Clustering Motivation K-Means
More information10. Composite Hypothesis Testing. ECE 830, Spring 2014
10. Composite Hypothesis Testing ECE 830, Spring 2014 1 / 25 In many real world problems, it is difficult to precisely specify probability distributions. Our models for data may involve unknown parameters
More informationLecture 14. Clustering, K-means, and EM
Lecture 14. Clustering, K-means, and EM Prof. Alan Yuille Spring 2014 Outline 1. Clustering 2. K-means 3. EM 1 Clustering Task: Given a set of unlabeled data D = {x 1,..., x n }, we do the following: 1.
More informationThe Expectation Maximization or EM algorithm
The Expectation Maximization or EM algorithm Carl Edward Rasmussen November 15th, 2017 Carl Edward Rasmussen The EM algorithm November 15th, 2017 1 / 11 Contents notation, objective the lower bound functional,
More informationCS Lecture 19. Exponential Families & Expectation Propagation
CS 6347 Lecture 19 Exponential Families & Expectation Propagation Discrete State Spaces We have been focusing on the case of MRFs over discrete state spaces Probability distributions over discrete spaces
More informationDS-GA 1002 Lecture notes 11 Fall Bayesian statistics
DS-GA 100 Lecture notes 11 Fall 016 Bayesian statistics In the frequentist paradigm we model the data as realizations from a distribution that depends on deterministic parameters. In contrast, in Bayesian
More informationExpectation maximization
Expectation maximization Subhransu Maji CMSCI 689: Machine Learning 14 April 2015 Motivation Suppose you are building a naive Bayes spam classifier. After your are done your boss tells you that there is
More informationIntroduction to Machine Learning
Introduction to Machine Learning Brown University CSCI 1950-F, Spring 2012 Prof. Erik Sudderth Lecture 20: Expectation Maximization Algorithm EM for Mixture Models Many figures courtesy Kevin Murphy s
More informationCPSC 540: Machine Learning
CPSC 540: Machine Learning Multivariate Gaussians Mark Schmidt University of British Columbia Winter 2019 Last Time: Multivariate Gaussian http://personal.kenyon.edu/hartlaub/mellonproject/bivariate2.html
More informationCS534 Machine Learning - Spring Final Exam
CS534 Machine Learning - Spring 2013 Final Exam Name: You have 110 minutes. There are 6 questions (8 pages including cover page). If you get stuck on one question, move on to others and come back to the
More informationThe Expectation-Maximization Algorithm
1/29 EM & Latent Variable Models Gaussian Mixture Models EM Theory The Expectation-Maximization Algorithm Mihaela van der Schaar Department of Engineering Science University of Oxford MLE for Latent Variable
More informationClustering and Gaussian Mixture Models
Clustering and Gaussian Mixture Models Piyush Rai IIT Kanpur Probabilistic Machine Learning (CS772A) Jan 25, 2016 Probabilistic Machine Learning (CS772A) Clustering and Gaussian Mixture Models 1 Recap
More informationIntroduction to Machine Learning. Maximum Likelihood and Bayesian Inference. Lecturers: Eran Halperin, Lior Wolf
1 Introduction to Machine Learning Maximum Likelihood and Bayesian Inference Lecturers: Eran Halperin, Lior Wolf 2014-15 We know that X ~ B(n,p), but we do not know p. We get a random sample from X, a
More informationStatistical learning. Chapter 20, Sections 1 3 1
Statistical learning Chapter 20, Sections 1 3 Chapter 20, Sections 1 3 1 Outline Bayesian learning Maximum a posteriori and maximum likelihood learning Bayes net learning ML parameter learning with complete
More informationCSCI-567: Machine Learning (Spring 2019)
CSCI-567: Machine Learning (Spring 2019) Prof. Victor Adamchik U of Southern California Mar. 19, 2019 March 19, 2019 1 / 43 Administration March 19, 2019 2 / 43 Administration TA3 is due this week March
More informationClustering. Professor Ameet Talwalkar. Professor Ameet Talwalkar CS260 Machine Learning Algorithms March 8, / 26
Clustering Professor Ameet Talwalkar Professor Ameet Talwalkar CS26 Machine Learning Algorithms March 8, 217 1 / 26 Outline 1 Administration 2 Review of last lecture 3 Clustering Professor Ameet Talwalkar
More informationCheng Soon Ong & Christian Walder. Canberra February June 2017
Cheng Soon Ong & Christian Walder Research Group and College of Engineering and Computer Science Canberra February June 2017 (Many figures from C. M. Bishop, "Pattern Recognition and ") 1of 679 Part XIX
More informationEM Algorithm LECTURE OUTLINE
EM Algorithm Lukáš Cerman, Václav Hlaváč Czech Technical University, Faculty of Electrical Engineering Department of Cybernetics, Center for Machine Perception 121 35 Praha 2, Karlovo nám. 13, Czech Republic
More informationMixture of Gaussians Models
Mixture of Gaussians Models Outline Inference, Learning, and Maximum Likelihood Why Mixtures? Why Gaussians? Building up to the Mixture of Gaussians Single Gaussians Fully-Observed Mixtures Hidden Mixtures
More informationMixture Models & EM. Nicholas Ruozzi University of Texas at Dallas. based on the slides of Vibhav Gogate
Mixture Models & EM icholas Ruozzi University of Texas at Dallas based on the slides of Vibhav Gogate Previously We looed at -means and hierarchical clustering as mechanisms for unsupervised learning -means
More informationCS6220: DATA MINING TECHNIQUES
CS6220: DATA MINING TECHNIQUES Matrix Data: Clustering: Part 2 Instructor: Yizhou Sun yzsun@ccs.neu.edu November 3, 2015 Methods to Learn Matrix Data Text Data Set Data Sequence Data Time Series Graph
More informationBayesian statistics. DS GA 1002 Statistical and Mathematical Models. Carlos Fernandez-Granda
Bayesian statistics DS GA 1002 Statistical and Mathematical Models http://www.cims.nyu.edu/~cfgranda/pages/dsga1002_fall15 Carlos Fernandez-Granda Frequentist vs Bayesian statistics In frequentist statistics
More informationMixture Models & EM. Nicholas Ruozzi University of Texas at Dallas. based on the slides of Vibhav Gogate
Mixture Models & EM icholas Ruozzi University of Texas at Dallas based on the slides of Vibhav Gogate Previously We looed at -means and hierarchical clustering as mechanisms for unsupervised learning -means
More informationNotes on Machine Learning for and
Notes on Machine Learning for 16.410 and 16.413 (Notes adapted from Tom Mitchell and Andrew Moore.) Choosing Hypotheses Generally want the most probable hypothesis given the training data Maximum a posteriori
More informationAnother Walkthrough of Variational Bayes. Bevan Jones Machine Learning Reading Group Macquarie University
Another Walkthrough of Variational Bayes Bevan Jones Machine Learning Reading Group Macquarie University 2 Variational Bayes? Bayes Bayes Theorem But the integral is intractable! Sampling Gibbs, Metropolis
More informationMachine Learning CMPT 726 Simon Fraser University. Binomial Parameter Estimation
Machine Learning CMPT 726 Simon Fraser University Binomial Parameter Estimation Outline Maximum Likelihood Estimation Smoothed Frequencies, Laplace Correction. Bayesian Approach. Conjugate Prior. Uniform
More informationNon-Parametric Bayes
Non-Parametric Bayes Mark Schmidt UBC Machine Learning Reading Group January 2016 Current Hot Topics in Machine Learning Bayesian learning includes: Gaussian processes. Approximate inference. Bayesian
More informationMachine Learning. Gaussian Mixture Models. Zhiyao Duan & Bryan Pardo, Machine Learning: EECS 349 Fall
Machine Learning Gaussian Mixture Models Zhiyao Duan & Bryan Pardo, Machine Learning: EECS 349 Fall 2012 1 Discriminative vs Generative Models Discriminative: Just learn a decision boundary between your
More informationMachine Learning for Data Science (CS4786) Lecture 24
Machine Learning for Data Science (CS4786) Lecture 24 HMM Particle Filter Course Webpage : http://www.cs.cornell.edu/courses/cs4786/2017fa/ Rejection Sampling Rejection Sampling Sample variables from joint
More informationData Preprocessing. Cluster Similarity
1 Cluster Similarity Similarity is most often measured with the help of a distance function. The smaller the distance, the more similar the data objects (points). A function d: M M R is a distance on M
More informationData Mining Techniques
Data Mining Techniques CS 6220 - Section 2 - Spring 2017 Lecture 6 Jan-Willem van de Meent (credit: Yijun Zhao, Chris Bishop, Andrew Moore, Hastie et al.) Project Project Deadlines 3 Feb: Form teams of
More informationClustering by Mixture Models. General background on clustering Example method: k-means Mixture model based clustering Model estimation
Clustering by Mixture Models General bacground on clustering Example method: -means Mixture model based clustering Model estimation 1 Clustering A basic tool in data mining/pattern recognition: Divide
More information10-701/15-781, Machine Learning: Homework 4
10-701/15-781, Machine Learning: Homewor 4 Aarti Singh Carnegie Mellon University ˆ The assignment is due at 10:30 am beginning of class on Mon, Nov 15, 2010. ˆ Separate you answers into five parts, one
More informationClustering K-means. Machine Learning CSE546. Sham Kakade University of Washington. November 15, Review: PCA Start: unsupervised learning
Clustering K-means Machine Learning CSE546 Sham Kakade University of Washington November 15, 2016 1 Announcements: Project Milestones due date passed. HW3 due on Monday It ll be collaborative HW2 grades
More informationp L yi z n m x N n xi
y i z n x n N x i Overview Directed and undirected graphs Conditional independence Exact inference Latent variables and EM Variational inference Books statistical perspective Graphical Models, S. Lauritzen
More informationPMR Learning as Inference
Outline PMR Learning as Inference Probabilistic Modelling and Reasoning Amos Storkey Modelling 2 The Exponential Family 3 Bayesian Sets School of Informatics, University of Edinburgh Amos Storkey PMR Learning
More informationBayesian Machine Learning
Bayesian Machine Learning Andrew Gordon Wilson ORIE 6741 Lecture 2: Bayesian Basics https://people.orie.cornell.edu/andrew/orie6741 Cornell University August 25, 2016 1 / 17 Canonical Machine Learning
More informationPattern Recognition and Machine Learning. Bishop Chapter 9: Mixture Models and EM
Pattern Recognition and Machine Learning Chapter 9: Mixture Models and EM Thomas Mensink Jakob Verbeek October 11, 27 Le Menu 9.1 K-means clustering Getting the idea with a simple example 9.2 Mixtures
More informationMixtures of Gaussians continued
Mixtures of Gaussians continued Machine Learning CSE446 Carlos Guestrin University of Washington May 17, 2013 1 One) bad case for k-means n Clusters may overlap n Some clusters may be wider than others
More informationIEOR E4570: Machine Learning for OR&FE Spring 2015 c 2015 by Martin Haugh. The EM Algorithm
IEOR E4570: Machine Learning for OR&FE Spring 205 c 205 by Martin Haugh The EM Algorithm The EM algorithm is used for obtaining maximum likelihood estimates of parameters when some of the data is missing.
More informationLecture 10. Announcement. Mixture Models II. Topics of This Lecture. This Lecture: Advanced Machine Learning. Recap: GMMs as Latent Variable Models
Advanced Machine Learning Lecture 10 Mixture Models II 30.11.2015 Bastian Leibe RWTH Aachen http://www.vision.rwth-aachen.de/ Announcement Exercise sheet 2 online Sampling Rejection Sampling Importance
More informationProbabilistic Graphical Models for Image Analysis - Lecture 4
Probabilistic Graphical Models for Image Analysis - Lecture 4 Stefan Bauer 12 October 2018 Max Planck ETH Center for Learning Systems Overview 1. Repetition 2. α-divergence 3. Variational Inference 4.
More informationLatent Variable Models and EM algorithm
Latent Variable Models and EM algorithm SC4/SM4 Data Mining and Machine Learning, Hilary Term 2017 Dino Sejdinovic 3.1 Clustering and Mixture Modelling K-means and hierarchical clustering are non-probabilistic
More information1 Expectation Maximization
Introduction Expectation-Maximization Bibliographical notes 1 Expectation Maximization Daniel Khashabi 1 khashab2@illinois.edu 1.1 Introduction Consider the problem of parameter learning by maximizing
More informationStatistical learning. Chapter 20, Sections 1 3 1
Statistical learning Chapter 20, Sections 1 3 Chapter 20, Sections 1 3 1 Outline Bayesian learning Maximum a posteriori and maximum likelihood learning Bayes net learning ML parameter learning with complete
More informationEM-based Reinforcement Learning
EM-based Reinforcement Learning Gerhard Neumann 1 1 TU Darmstadt, Intelligent Autonomous Systems December 21, 2011 Outline Expectation Maximization (EM)-based Reinforcement Learning Recap : Modelling data
More informationProbabilistic Time Series Classification
Probabilistic Time Series Classification Y. Cem Sübakan Boğaziçi University 25.06.2013 Y. Cem Sübakan (Boğaziçi University) M.Sc. Thesis Defense 25.06.2013 1 / 54 Problem Statement The goal is to assign
More informationComputer Intensive Methods in Mathematical Statistics
Computer Intensive Methods in Mathematical Statistics Department of mathematics johawes@kth.se Lecture 16 Advanced topics in computational statistics 18 May 2017 Computer Intensive Methods (1) Plan of
More informationExpectation-Maximization (EM) algorithm
I529: Machine Learning in Bioinformatics (Spring 2017) Expectation-Maximization (EM) algorithm Yuzhen Ye School of Informatics and Computing Indiana University, Bloomington Spring 2017 Contents Introduce
More informationK-Means and Gaussian Mixture Models
K-Means and Gaussian Mixture Models David Rosenberg New York University October 29, 2016 David Rosenberg (New York University) DS-GA 1003 October 29, 2016 1 / 42 K-Means Clustering K-Means Clustering David
More informationReview and Motivation
Review and Motivation We can model and visualize multimodal datasets by using multiple unimodal (Gaussian-like) clusters. K-means gives us a way of partitioning points into N clusters. Once we know which
More informationMaximum Likelihood Estimation. only training data is available to design a classifier
Introduction to Pattern Recognition [ Part 5 ] Mahdi Vasighi Introduction Bayesian Decision Theory shows that we could design an optimal classifier if we knew: P( i ) : priors p(x i ) : class-conditional
More informationNote Set 5: Hidden Markov Models
Note Set 5: Hidden Markov Models Probabilistic Learning: Theory and Algorithms, CS 274A, Winter 2016 1 Hidden Markov Models (HMMs) 1.1 Introduction Consider observed data vectors x t that are d-dimensional
More informationMixture Models and EM
Mixture Models and EM Yoan Miche CIS, HUT March 17, 27 Yoan Miche (CIS, HUT) Mixture Models and EM March 17, 27 1 / 23 Mise en Bouche Yoan Miche (CIS, HUT) Mixture Models and EM March 17, 27 2 / 23 Mise
More informationClustering. Léon Bottou COS 424 3/4/2010. NEC Labs America
Clustering Léon Bottou NEC Labs America COS 424 3/4/2010 Agenda Goals Representation Capacity Control Operational Considerations Computational Considerations Classification, clustering, regression, other.
More informationMixtures of Gaussians. Sargur Srihari
Mixtures of Gaussians Sargur srihari@cedar.buffalo.edu 1 9. Mixture Models and EM 0. Mixture Models Overview 1. K-Means Clustering 2. Mixtures of Gaussians 3. An Alternative View of EM 4. The EM Algorithm
More informationStatistical Learning. Dong Liu. Dept. EEIS, USTC
Statistical Learning Dong Liu Dept. EEIS, USTC Chapter 6. Unsupervised and Semi-Supervised Learning 1. Unsupervised learning 2. k-means 3. Gaussian mixture model 4. Other approaches to clustering 5. Principle
More informationProbability and Information Theory. Sargur N. Srihari
Probability and Information Theory Sargur N. srihari@cedar.buffalo.edu 1 Topics in Probability and Information Theory Overview 1. Why Probability? 2. Random Variables 3. Probability Distributions 4. Marginal
More informationMachine Learning for Signal Processing Bayes Classification and Regression
Machine Learning for Signal Processing Bayes Classification and Regression Instructor: Bhiksha Raj 11755/18797 1 Recap: KNN A very effective and simple way of performing classification Simple model: For
More informationA brief introduction to Conditional Random Fields
A brief introduction to Conditional Random Fields Mark Johnson Macquarie University April, 2005, updated October 2010 1 Talk outline Graphical models Maximum likelihood and maximum conditional likelihood
More informationMaximum likelihood estimation
Maximum likelihood estimation Guillaume Obozinski Ecole des Ponts - ParisTech Master MVA Maximum likelihood estimation 1/26 Outline 1 Statistical concepts 2 A short review of convex analysis and optimization
More informationCOMS 4721: Machine Learning for Data Science Lecture 19, 4/6/2017
COMS 4721: Machine Learning for Data Science Lecture 19, 4/6/2017 Prof. John Paisley Department of Electrical Engineering & Data Science Institute Columbia University PRINCIPAL COMPONENT ANALYSIS DIMENSIONALITY
More informationScribe to lecture Tuesday March
Scribe to lecture Tuesday March 16 2004 Scribe outlines: Message Confidence intervals Central limit theorem Em-algorithm Bayesian versus classical statistic Note: There is no scribe for the beginning of
More informationCS6220: DATA MINING TECHNIQUES
CS6220: DATA MINING TECHNIQUES Matrix Data: Clustering: Part 2 Instructor: Yizhou Sun yzsun@ccs.neu.edu October 19, 2014 Methods to Learn Matrix Data Set Data Sequence Data Time Series Graph & Network
More informationCSC411: Final Review. James Lucas & David Madras. December 3, 2018
CSC411: Final Review James Lucas & David Madras December 3, 2018 Agenda 1. A brief overview 2. Some sample questions Basic ML Terminology The final exam will be on the entire course; however, it will be
More informationUnsupervised Learning
2018 EE448, Big Data Mining, Lecture 7 Unsupervised Learning Weinan Zhang Shanghai Jiao Tong University http://wnzhang.net http://wnzhang.net/teaching/ee448/index.html ML Problem Setting First build and
More informationExpectation Maximization Algorithm
Expectation Maximization Algorithm Vibhav Gogate The University of Texas at Dallas Slides adapted from Carlos Guestrin, Dan Klein, Luke Zettlemoyer and Dan Weld The Evils of Hard Assignments? Clusters
More informationPCA and admixture models
PCA and admixture models CM226: Machine Learning for Bioinformatics. Fall 2016 Sriram Sankararaman Acknowledgments: Fei Sha, Ameet Talwalkar, Alkes Price PCA and admixture models 1 / 57 Announcements HW1
More informationParametric Modelling of Over-dispersed Count Data. Part III / MMath (Applied Statistics) 1
Parametric Modelling of Over-dispersed Count Data Part III / MMath (Applied Statistics) 1 Introduction Poisson regression is the de facto approach for handling count data What happens then when Poisson
More informationLecture 11: Unsupervised Machine Learning
CSE517A Machine Learning Spring 2018 Lecture 11: Unsupervised Machine Learning Instructor: Marion Neumann Scribe: Jingyu Xin Reading: fcml Ch6 (Intro), 6.2 (k-means), 6.3 (Mixture Models); [optional]:
More informationAccelerating the EM Algorithm for Mixture Density Estimation
Accelerating the EM Algorithm ICERM Workshop September 4, 2015 Slide 1/18 Accelerating the EM Algorithm for Mixture Density Estimation Homer Walker Mathematical Sciences Department Worcester Polytechnic
More information6.867 Machine Learning
6.867 Machine Learning Problem set 1 Due Thursday, September 19, in class What and how to turn in? Turn in short written answers to the questions explicitly stated, and when requested to explain or prove.
More informationWeek 3: The EM algorithm
Week 3: The EM algorithm Maneesh Sahani maneesh@gatsby.ucl.ac.uk Gatsby Computational Neuroscience Unit University College London Term 1, Autumn 2005 Mixtures of Gaussians Data: Y = {y 1... y N } Latent
More informationMachine Learning 4771
Machine Learning 4771 Instructor: Tony Jebara Topic 11 Maximum Likelihood as Bayesian Inference Maximum A Posteriori Bayesian Gaussian Estimation Why Maximum Likelihood? So far, assumed max (log) likelihood
More informationLecture 6: April 19, 2002
EE596 Pat. Recog. II: Introduction to Graphical Models Spring 2002 Lecturer: Jeff Bilmes Lecture 6: April 19, 2002 University of Washington Dept. of Electrical Engineering Scribe: Huaning Niu,Özgür Çetin
More informationSTATS 306B: Unsupervised Learning Spring Lecture 2 April 2
STATS 306B: Unsupervised Learning Spring 2014 Lecture 2 April 2 Lecturer: Lester Mackey Scribe: Junyang Qian, Minzhe Wang 2.1 Recap In the last lecture, we formulated our working definition of unsupervised
More information