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CPSC 322, Lecture 21Slide 1 Bottom Up: Soundness and Completeness Computer Science cpsc322, Lecture 21 (Textbook Chpt 5.2) February, 27, 2009.

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Presentation on theme: "CPSC 322, Lecture 21Slide 1 Bottom Up: Soundness and Completeness Computer Science cpsc322, Lecture 21 (Textbook Chpt 5.2) February, 27, 2009."— Presentation transcript:

1 CPSC 322, Lecture 21Slide 1 Bottom Up: Soundness and Completeness Computer Science cpsc322, Lecture 21 (Textbook Chpt 5.2) February, 27, 2009

2 CPSC 322, Lecture 21Slide 2 Lecture Overview Recap Soundness of Bottom-up Proofs Completeness of Bottom-up Proofs

3 CPSC 322, Lecture 21Slide 3 (Propositional) Logic: Key ideas Given a domain that can be represented with n propositions you have …… interpretations (possible worlds) If you do not know anything you can be in any of those If you know that some logical formulas are true (your …….). You know that you can be only in ……… It would be nice to know what else is true in all those…

4 CPSC 322, Lecture 21Slide 4 PDCL syntax / semantics / proofs Interpretations? rqp TTT TTF TFT TFF FTT FTF FFT FFF Models? What is logically entailed ? Prove Domain can be represented by three propositions: p, q, r

5 CPSC 322, Lecture 21Slide 5 PDCL syntax / semantics / proofs Interpretations rqp TTT TTF TFT TFF FTT FTF FFT FFF Models What is logically entailed? Prove

6 CPSC 322, Lecture 21Slide 6 Lecture Overview Recap Soundness of Bottom-up Proofs Completeness of Bottom-up Proofs

7 CPSC 322, Lecture 21Slide 7 Soundness of bottom-up proof procedure Generic Soundness of proof procedure: If G can be proved by the procedure (KB ⊦ G) then G is logically entailed by the KB (KB ⊧ G) For Bottom-Up proof if at the end of procedure then G is logically entailed by the KB So BU is sound, if …….

8 CPSC 322, Lecture 21Slide 8 Soundness of bottom-up proof procedure Suppose this is not the case. 1.Let h be the first atom added to C that is not entailed by KB (i.e., that's in every model of KB) 2.Suppose h isn't true in model M of KB. 3.Since h was added to C, there must be a clause in KB of form: 4.Each b i is true in M (because of 1.). h is false in M. So…… 5.Therefore 6.Contradiction! thus no such h exists.

9 CPSC 322, Lecture 21Slide 9 Lecture Overview Recap Soundness of Bottom-up Proofs Completeness of Bottom-up Proofs

10 CPSC 322, Lecture 21Slide 10 Completeness of Bottom Up Generic Completeness of proof procedure: If G is logically entailed by the KB (KB ⊧ G) then G can be proved by the procedure (KB ⊦ G) Sketch of our proof: 1.Suppose KB ⊧ G. Then G is true in all models of KB. 2.Thus G is true in any particular model of KB 3.We will define a model so that if G is true in that model, G is generated by the bottom up algorithm. 4.Thus KB ⊦ G.

11 CPSC 322, Lecture 21Slide 11 Let’s work on step 3 3. We will define a model so that if G is true in that model, G is generated by the bottom up algorithm. 3.1 We will define an interpretation I so that if G is true in I, G is generated by the bottom up algorithm. 3.2 We will then show that ………

12 CPSC 322, Lecture 22Slide 12 Let’s work on step 3.1 a ← e ∧ g. b ← f ∧ g. c ← e. f ← c ∧ e. e. d. { } { e } { e, d } { e, d, c} { e, d, c, f } { a, b, c, d, e, f, g } Let I be the interpretation in which every element of C is and every other atom is. 3.1 Define interpretation I so that if G is true in I, Then G ⊆ C.

13 CPSC 322, Lecture 21Slide 13 Let’s work on step 3.2 Claim: I is a model of KB. Proof: Assume that I is not a model of KB. Then there must exist some clause h ← b 1 ∧ … ∧ b m in KB (having zero or more b i 's) which is in I. The only way this can occur is if b 1 … b m are in I (i.e., are in C) and h is in I (i.e., is not in C ) But if each b i belonged to C, Bottom Up would have added h to C as well. So, there can be no clause in the KB that is false in interpretation I (which implies the claim :-)

14 CPSC 322, Lecture 22Slide 14 Completeness of Bottom Up If KB ⊧ G then KB ⊦ G Suppose KB ⊧ G. Then G is true Thus G is true Thus Thus G is generated Thus

15 CPSC 322, Lecture 4Slide 15 Learning Goals for today’s class You can: Prove that BU proof procedure is sound Prove that BU proof procedure is complete

16 CPSC 322, Lecture 20Slide 16 Next class (still section 5.2) Using PDC Logic to model the electrical domain Reasoning in the electrical domain Top-down proof procedure (as Search)

17 CPSC 322, Lecture 19Slide 17 Study for midterm (Wed March 4) Midterm: ~10 short questions + 2 problems Study: textbook and inked slides Work on all practice exercises While you revise the learning goals, work on review questions - I may even reuse some verbatim Will post a couple of problems from previous offering (maybe slightly more difficult /inappropriate for you because they were not informed by the learning goals) … but I’ll give you the solutions

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