Presentation is loading. Please wait.

Presentation is loading. Please wait.

CS774. Markov Random Field : Theory and Application Lecture 06 Kyomin Jung KAIST Sep 22 2009.

Published byMarjory McCormick Modified over 9 years ago

Similar presentations

Presentation on theme: "CS774. Markov Random Field : Theory and Application Lecture 06 Kyomin Jung KAIST Sep 22 2009."— Presentation transcript:

1 CS774. Markov Random Field : Theory and Application Lecture 06 Kyomin Jung KAIST Sep 22 2009

2 Dynamic programming on the Junction Tree to compute marginals and MAP of G G Junction Tree of G Ex) consider Independent set problem

3 Hugin algorithm to build a junction tree Triangulate the graph to make it chordal Construct a junction tree from the triangulated graph A graph is chordal if each of its cycles of four or more nodes has a chord, which is an edge joining two nodes that are not adjacent in the cycle.

4 Exponential Family Parametrization of positive MRFs, i.e. P[x]>0 for all x. Let denote a collection of potential functions defined on the cliques of G. Let be a vector of weights on these potent ials functions. An MRF with weight is defined by Where the partition function is

5 Lemmas 1. 2. Hence the log partition function is convex as a function of.

6 Convex combinations Let denote the set of all spanning trees of G. Let be an exponential parameter vector that represents a tree T, i.e. only for the edges of T. Let be a probability distribution over T(G):

7 Example 4/3 1 1 11 00 0 0 G

8 Upper bound on the log partition ftn By Jensen’s inequality we obtain that For all and such that

9 Upper bound on the log partition ftn Note : number of spanning tree is large  ex Cayley’s formula says that # of spanning tree of a complete graph is Optimizing over with fixed It has a global minimum, and it could be solved exactly by nonlinear programming. To be continued

Download ppt "CS774. Markov Random Field : Theory and Application Lecture 06 Kyomin Jung KAIST Sep 22 2009."

Similar presentations

CS188: Computational Models of Human Behavior

CS188: Computational Models of Human Behavior
Connectivity - Menger’s Theorem Graphs & Algorithms Lecture 3.

Connectivity - Menger’s Theorem Graphs & Algorithms Lecture 3.
1 Undirected Graphical Models Graphical Models – 10708 Carlos Guestrin Carnegie Mellon University October 29 th, 2008 Readings: K&F: 4.1, 4.2, 4.3, 4.4,

1 Undirected Graphical Models Graphical Models – Carlos Guestrin Carnegie Mellon University October 29 th, 2008 Readings: K&F: 4.1, 4.2, 4.3, 4.4,
Factorial Mixture of Gaussians and the Marginal Independence Model Ricardo Silva Joint work-in-progress with Zoubin Ghahramani.

Factorial Mixture of Gaussians and the Marginal Independence Model Ricardo Silva Joint work-in-progress with Zoubin Ghahramani.
Variational Methods for Graphical Models Micheal I. Jordan Zoubin Ghahramani Tommi S. Jaakkola Lawrence K. Saul Presented by: Afsaneh Shirazi.

Variational Methods for Graphical Models Micheal I. Jordan Zoubin Ghahramani Tommi S. Jaakkola Lawrence K. Saul Presented by: Afsaneh Shirazi.
CS498-EA Reasoning in AI Lecture #15 Instructor: Eyal Amir Fall Semester 2011.

CS498-EA Reasoning in AI Lecture #15 Instructor: Eyal Amir Fall Semester 2011.
Graphical Models - Inference - Wolfram Burgard, Luc De Raedt, Kristian Kersting, Bernhard Nebel Albert-Ludwigs University Freiburg, Germany PCWP CO HRBP.

Graphical Models - Inference - Wolfram Burgard, Luc De Raedt, Kristian Kersting, Bernhard Nebel Albert-Ludwigs University Freiburg, Germany PCWP CO HRBP.
Bayesian Networks, Winter 2009-2010 Yoav Haimovitch & Ariel Raviv 1.

Bayesian Networks, Winter Yoav Haimovitch & Ariel Raviv 1.
Introduction to Markov Random Fields and Graph Cuts Simon Prince

Introduction to Markov Random Fields and Graph Cuts Simon Prince
Exact Inference in Bayes Nets

Exact Inference in Bayes Nets
CS774. Markov Random Field : Theory and Application Lecture 17 Kyomin Jung KAIST Nov 05 2009.

CS774. Markov Random Field : Theory and Application Lecture 17 Kyomin Jung KAIST Nov
An Introduction to Variational Methods for Graphical Models.

An Introduction to Variational Methods for Graphical Models.
CS774. Markov Random Field : Theory and Application Lecture 20 Kyomin Jung KAIST Nov 17 2009.

CS774. Markov Random Field : Theory and Application Lecture 20 Kyomin Jung KAIST Nov
CS774. Markov Random Field : Theory and Application Lecture 04 Kyomin Jung KAIST Sep 15 2009.

CS774. Markov Random Field : Theory and Application Lecture 04 Kyomin Jung KAIST Sep
Chapter 8-3 Markov Random Fields 1. Topics 1. Introduction 1. Undirected Graphical Models 2. Terminology 2. Conditional Independence 3. Factorization.

Chapter 8-3 Markov Random Fields 1. Topics 1. Introduction 1. Undirected Graphical Models 2. Terminology 2. Conditional Independence 3. Factorization.
CS774. Markov Random Field : Theory and Application Lecture 16 Kyomin Jung KAIST Nov 03 2009.

CS774. Markov Random Field : Theory and Application Lecture 16 Kyomin Jung KAIST Nov
Steps in DP: Step 1 Think what decision is the “last piece in the puzzle” –Where to place the outermost parentheses in a matrix chain multiplication (A.

Steps in DP: Step 1 Think what decision is the “last piece in the puzzle” –Where to place the outermost parentheses in a matrix chain multiplication (A.
Junction Trees: Motivation Standard algorithms (e.g., variable elimination) are inefficient if the undirected graph underlying the Bayes Net contains cycles.

Junction Trees: Motivation Standard algorithms (e.g., variable elimination) are inefficient if the undirected graph underlying the Bayes Net contains cycles.
Complexity 16-1 Complexity Andrei Bulatov Non-Approximability.

Complexity 16-1 Complexity Andrei Bulatov Non-Approximability.
Visual Recognition Tutorial

Visual Recognition Tutorial

Similar presentations

Ads by Google