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I-equivalence Bayesian Networks Representation Probabilistic Graphical

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Presentation on theme: "I-equivalence Bayesian Networks Representation Probabilistic Graphical"— Presentation transcript:

1 I-equivalence Bayesian Networks Representation Probabilistic Graphical
Models Bayesian Networks I-equivalence

2 Different G’s might encode the same independencies
Draw student network

3 Which of the following graphs does not encode the
same independencies as the others? X Y Z X Y Z X Y Z X Y Z

4 I-equivalence Definition: Two graphs G1 and G2 over X1,…,Xn are I-equivalent if Chain rule, CPDs

5 Characterizing I-equivalence
Theorem: G1 and G2 are I-equivalent if and only if they have

6 Implications

7 END END END

8

9

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13 The Chain Rule for Bayesian Nets
Intelligence Difficulty Grade Letter SAT 0.3 0.08 0.25 0.4 g2 0.02 0.9 i1,d0 0.7 0.05 i0,d1 0.5 g1 g3 0.2 i1,d1 i0,d0 l1 l0 0.99 0.1 0.01 0.6 0.95 s0 s1 0.8 i1 i0 d1 d0 P(D,I,G,S,L) = P(D) P(I) P(G | I,D) P(L | G) P(S | I)

14 Suppose q is at a local minimum of a function
Suppose q is at a local minimum of a function. What will one iteration of gradient descent do? Leave q unchanged. Change q in a random direction. Move q towards the global minimum of J(q). Decrease q.

15 Consider the weight update:
Which of these is a correct vectorized implementation?

16 Fig. A corresponds to a=0.01, Fig. B to a=0.1, Fig. C to a=1.

17

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