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CPSC 322, Lecture 26Slide 1 Reasoning Under Uncertainty: Belief Networks Computer Science cpsc322, Lecture 27 (Textbook Chpt 6.3) March, 16, 2009.

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Presentation on theme: "CPSC 322, Lecture 26Slide 1 Reasoning Under Uncertainty: Belief Networks Computer Science cpsc322, Lecture 27 (Textbook Chpt 6.3) March, 16, 2009."— Presentation transcript:

1 CPSC 322, Lecture 26Slide 1 Reasoning Under Uncertainty: Belief Networks Computer Science cpsc322, Lecture 27 (Textbook Chpt 6.3) March, 16, 2009

2 CPSC 322, Lecture 2Slide 2 Big Picture: R&R systems Environment Problem Query Planning Deterministic Stochastic Search Arc Consistency Search Value Iteration Var. Elimination Constraint Satisfaction Logics STRIPS Belief Nets Vars + Constraints Decision Nets Markov Processes Var. Elimination Static Sequential Representation Reasoning Technique SLS

3 CPSC 322, Lecture 18Slide 3 Answering Query under Uncertainty Static Belief Network & Variable Elimination Dynamic Bayesian Network Probability Theory Hidden Markov Models Email spam filters Diagnostic Systems (e.g., medicine) Natural Language Processing Student Tracing in tutoring Systems Monitoring (e.g credit cards)

4 CPSC 322, Lecture 26Slide 4 Key points Recap We model the environment as a set of …. Why the joint is not an adequate representation ? “Representation, reasoning and learning” are “exponential” in ….. Solution: Exploit marginal&conditional independence But how does independence allow us to simplify the joint?

5 CPSC 322, Lecture 26Slide 5 Lecture Overview Belief Networks Build sample BN Intro Inference, Compactness, Semantics More Examples

6 CPSC 322, Lecture 26Slide 6 Belief Nets: Burglary Example There might be a burglar in my house The anti-burglar alarm in my house may go off I have an agreement with two of my neighbors, John and Mary, that they call me if they hear the alarm go off when I am at work Minor earthquakes may occur and sometimes the set off the alarm. Variables: Joint has entries/probs

7 CPSC 322, Lecture 26Slide 7 Belief Nets: Simplify the joint Typically order vars to reflect causal knowledge (i.e., causes before effects) A burglar (B) can set the alarm (A) off An earthquake (E) can set the alarm (A) off The alarm can cause Mary to call (M) The alarm can cause John to call (J) Apply Chain Rule Simplify according to marginal&conditional independence

8 CPSC 322, Lecture 26Slide 8 Belief Nets: Structure + Probs Express remaining dependencies as a network Each var is a node For each var, the conditioning vars are its parents Associate to each node corresponding conditional probabilities Directed Acyclic Graph (DAG)

9 Slide 9 Burglary: complete BN BEP(A=T | B,E)P(A=F | B,E) TT.95.05 TF.94.06 FT.29.71 FF.001.999 P(B=T)P(B=F ).001.999 P(E=T)P(E=F ).002.998 AP(J=T | A)P(J=F | A) T.90.10 F.05.95 AP(M=T | A)P(M=F | A) T.70.30 F.01.99

10 CPSC 322, Lecture 26Slide 10 Lecture Overview Belief Networks Build sample BN Intro Inference, Compactness, Semantics More Examples

11 CPSC 322, Lecture 26Slide 11 Burglary Example: Bnets inference (Ex1) I'm at work, neighbor John calls to say my alarm is ringing, neighbor Mary doesn't call. No news of any earthquakes. Is there a burglar? (Ex2) I'm at work, Receive message that neighbor John called, News of minor earthquakes. Is there a burglar? Our BN can answer any probabilistic query that can be answered by processing the joint!

12 CPSC 322, Lecture 26Slide 12 Bayesian Networks – Inference Types Diagnostic Burglary Alarm JohnCalls P(J) = 1.0 P(B) = 0.001 0.016 Burglary Earthquake Alarm Intercausal P(A) = 1.0 P(B) = 0.001 0.003 P(E) = 1.0 JohnCalls Predictive Burglary Alarm P(J) = 0.011 0.66 P(B) = 1.0 Mixed Earthquake Alarm JohnCalls P(M) = 1.0 P(  E) = 1.0 P(A) = 0.003 0.033

13 Slide 13 BNnets: Compactness B E P(A=T | B,E)P(A=F | B,E) T T.95.05 T F.94.06 F T.29.71 F F.001.999 P(B=T)P(B=F ).001.999 P(E=T) P(E=F ).002.998 AP(J=T | A)P(J=F | A) T.90.10 F.05.95 AP(M=T | A)P(M=F | A) T.70.30 F.01.99

14 CPSC 322, Lecture 26Slide 14 BNets: Compactness In General: A CPT for boolean X i with k boolean parents has rows for the combinations of parent values Each row requires one number p i for X i = true (the number for X i = false is just 1-p i ) If each variable has no more than k parents, the complete network requires numbers For k<< n, this is a substantial improvement, the numbers required grow linearly with n, vs. O(2 n ) for the full joint distribution

15 CPSC 322, Lecture 26Slide 15 BNets: Construction General Semantics The full joint distribution can be defined as the product of conditional distributions: P (X 1, …,X n ) = π i = 1 P(X i | X 1, …,X i-1 ) (chain rule) Simplify according to marginal&conditional independence n Express remaining dependencies as a network Each var is a node For each var, the conditioning vars are its parents Associate to each node corresponding conditional probabilities P (X 1, …,X n ) = π i = 1 P (X i | Parents(X i )) n

16 CPSC 322, Lecture 26Slide 16 BNets: Construction General Semantics (cont’) n P (X 1, …,X n ) = π i = 1 P (X i | Parents(X i )) Every node is independent from its non-descendants given it parents

17 CPSC 322, Lecture 26Slide 17 Lecture Overview Belief Networks Build sample BN Intro Inference, Compactness, Semantics More Examples

18 CPSC 322, Lecture 26Slide 18 Other Examples: Fire Diagnosis (textbook Ex. 6.10) Suppose you want to diagnose whether there is a fire in a building you receive a noisy report about whether everyone is leaving the building. if everyone is leaving, this may have been caused by a fire alarm. if there is a fire alarm, it may have been caused by a fire or by tampering if there is a fire, there may be smoke raising from the bldg.

19 CPSC 322, Lecture 26Slide 19 Other Examples (cont’) Make sure you explore and understand the Fire Diagnosis example (we’ll expand on it to study Decision Networks) Electrical Circuit example (textbook ex 6.11) Patient’s aching hands example (ex. 6.14) Several other examples on

20 CPSC 322, Lecture 26Slide 20 Realistic BNet: Liver Diagnosis Source: Onisko et al., 1999

21 CPSC 322, Lecture 26Slide 21 Realistic BNet: Liver Diagnosis Source: Onisko et al., 1999

22 CPSC 322, Lecture 4Slide 22 Learning Goals for today’s class You can: Build a Belief Network for a simple domain Classify the types of inference Compute the representational saving in terms on number of probabilities required

23 CPSC 322, Lecture 26Slide 23 Next Class Bayesian Networks Representation Additional Dependencies encoded by BNets More compact representations for CPT Very simple but extremely useful Bnet (Bayes Classifier)

24 CPSC 322, Lecture 26Slide 24 Belief network summary A belief network is a directed acyclic graph (DAG) that effectively expresses independence assertions among random variables. The parents of a node X are those variables on which X directly depends. Consideration of causal dependencies among variables typically help in constructing a Bnet

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