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First-Order Logic
Chapter 8Examples
[04PBT 04PFT 04PLT 04PNT 04PRT]
Genap 2011-2012
[dks0638]
First-order logic
• Whereas propositional logic assumes the world contains facts,
• first-order logic (like natural language) assumes the world contains– Objects: people, houses, numbers, colors,
baseball games, wars, …– Relations: red, round, prime, brother of, bigger
than, part of, comes between, …– Functions: father of, best friend, one more
than, plus, …
Syntax of FOL
• Constants KingJohn, 2, UofA,...
• Predicates Brother, >,...
• Functions Sqrt, LeftLegOf,...
• Variables x, y, a, b,...
• Connectives , , , , • Equality =
• Quantifiers ,
Example Knowledge Base
The law says that it is a crime for an American to sell weapons to hostile nations. The country Nono, an enemy of America, has some missiles, and all of its missiles were sold to it by Colonel West, who is American.
Prove that Col. West is a criminal!
Example Knowledge Base contd.
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Properties of forward chaining
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Sound and complete for first-order definite clauses (proof similar to propositional proof)
Datalog = first-order definite clauses + no functions (e.g., crime KB)
FC terminates for Datalog in poly iterations: at most p ∙ nk literals
May not terminate in general if is not entailed
This is unavoidable: entailment with definite clauses is semidecidable
Efficiency of forward chainingSimple observation: no need to match a rule on iteration kif a premise wasn't added on iteration k - 1 match each rule whose premise contains a newly added
literal
Matching itself can be expensive
Database indexing allows O(1) retrieval of known factse.g., query Missile(x) retrieves Missile(M1)
Matching conjunctive premises against known facts is NP-hard
Forward chaining is widely used in deductive databases
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Properties of backward chaining
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Depth-first recursive proof search: space is linear in size of proof
Incomplete due to infinite loops
fix by checking current goal against every goal on stack
Inefficient due to repeated subgoals (both success and failure) fix using caching of previous results (extra space!)
Widely used (without improvements!) for logic programming
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Resolution refutation proofs involvesthe following steps:
1. Put the premises or axioms into clause form.
2. Add the negation of what is to be proved, in clause form, to the set of axioms.
3. Resolve these clauses together, producing new clauses that logically follow from them.
4. Produce a contradiction by generating the empty clause.
5. The substitutions used to produce the empty clause are those under which the opposite of the negated goal is true.
A Facts in Propositional Logic
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Given Axioms Clause Form
P P (1)
(P Q) R P Q R (2)
(S T) Q S Q (3)
T Q (4)
T T (5)
Prove R!
Resolution in Propositional Logic
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P Q R (2) R
P Q P (1)
T Q (4) Q
T T (5)
Prove fido will die!
1. All dogs are animal.
2. Fido is a dog.
3. All animals will die.
Resolution proof for the “dead dog” problem.
Lucky Student1. Anyone passing his history exams and
winning the lottery is happy.
2. Anyone who studies or is lucky can pass all his exams.
3. John did not study but he is lucky.
4. Anyone who is lucky wins the lottery.
Prove that John is happy!
One resolution refutation for the “happy student” problem.
[1] [6]
[5]
[3]
[5]
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[10]
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Exciting life
1. All people that are not poor and are smart are happy.
2. Those people that read are not stupid.
3. John can read and is wealthy.
4. Happy people have exiting lives.
Can anyone be found with an exciting life?
[1]
[3][2]
[4]
[6][5]
Resolution proof for the “exciting life” problem.
[6] [5]
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Resolution Example1. John likes all kinds of food.
x: food(x) likes(john, x)2. Apples are food.
food(apple)3. Chicken is food.
food(chicken)4. Anything anyone eats and isn't killed by is food.
x:(y: eats(y, x) killedby(y, x)) food(x)5. Bill eats peanuts and is still alive.
A. eats(Bill, peanuts) B. alive(Bill) 6. Sue eats everything Bill eats.
x:eats(Bill, x) eats(Sue, x)7. x:y: alive(x) killedby (x,y)
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Clause form:
1. food(x1) likes(John, x1)2. food(apples)3. food(chicken)4. eats(y4,x4) killedby(y4 , x4) food(x4)5. Eats (Bill, peanuts)6. Alive (Bill)7. eats(Bill,x7) eats(Sue,x7)8. alive(x8) killedby(x8, y8)
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Resolution proof that John likes peanuts
likes (John, peanuts) (1) food(x1) likes (John, x1)
food(peanuts) (4) eats(y4,x4) killedby(y4 . x4) food(x4)
eats(y4,peanuts) killedby(y4. peanuts) (5) eats(Bill.peanuts)
killedby(Bill. peanuts) (8) alive(x8) killedby(x8 y8)
alive(Bill) (6) alive(Bill)
peanuts/x1
peanuts/x4
Bill/x8, peanuts/y8
Bill/y4