Quick Review Probability Theory

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Presentation transcript:

Quick Review Probability Theory

Reasoning and Decision Making Under Uncertainty Uncertainty, Rules of Probability Bayes’ Theorem and Naïve Bayesian Systems Bayesian Belief Networks Structure and Concepts D-Separation How do they compute probabilities? How to design BBN using simple examples Other capabilities of Belief Network short! Netica Demo Develop a BBN using Netica Assignment4

Causes of not knowing things precisely Default Logic and Reasoning If Bird(X) THEN Fly(X) Incompleteness Uncertainty Belief Networks Vagueness Bayesian Technology Fuzzy Sets and Fuzzy Logic Reasoning with concepts that do not have a clearly defined boundary; e.g. old, long street, very odl…”

Random Variable values, each value having a probability of occurrence. Definition: A variable that can take on several values, each value having a probability of occurrence. There are two types of random variables: Discrete. Take on a countable number of values. Continuous. Take on a range of values.

The Sample Space given process or situation is called the The space of all possible outcomes of a given process or situation is called the sample space S. S red & small blue & small blue & large red & large

An Event An event A is a subset of the sample space. S red & small blue & small red & large blue & large A

Atomic Event An atomic event is a single point in S. Properties: Atomic events are mutually exclusive The set of all atomic events is exhaustive A proposition is the disjunction of the atomic events it covers.

The Laws of Probability The probability of the sample space S is 1, P(S) = 1 The probability of any event A is such that 0 <= P(A) <= 1. Law of Addition If A and B are mutually exclusive events, then the probability that either one of them will occur is the sum of the individual probabilities: P(A or B) = P(A) + P(B)

The Laws of Probability If A and B are not mutually exclusive: P(A or B) = P(A) + P(B) – P(A and B) A B

Conditional Probabilities and P(A,B) Given that A and B are events in sample space S, and P(B) is different of 0, then the conditional probability of A given B is P(A|B) = P(A,B) / P(B) If A and B are independent then P(A,B)=P(A)*P(B)  P(A|B)=P(A) In general: min(P(A),P(B)  P(A)*P(B) max(0,1-P(A)-P(B)) For example, if P(A)=0.7 and P(B)=0.5 then P(A,B) has to be between 0.2 and 0.5, but not necessarily be 0.35.

The Laws of Probability Law of Multiplication What is the probability that both A and B occur together? P(A and B) = P(A) P(B|A) where P(B|A) is the probability of B conditioned on A.

The Laws of Probability If A and B are statistically independent: P(B|A) = P(B) and then P(A and B) = P(A) P(B)

Independence on Two Variables P(A,B|C) = P(A|C) P(B|A,C) If A and B are conditionally independent: P(A|B,C) = P(A|C) and P(B|A,C) = P(B|C)

Multivariate Joint Distributions P(x,y) = P( X = x and Y = y). P’(x) = Prob( X = x) = ∑y P(x,y) It is called the marginal distribution of X The same can be done on Y to define the marginal distribution of Y, P”(y). If X and Y are independent then P(x,y) = P’(x) P”(y)

Bayes’ Theorem P(A,B) = P(A|B) P(B) P(B,A) = P(B|A) P(A) The theorem: P(B|A) = P(A|B)*P(B) / P(A) Example: P(Disease|Symptom)= P(Symptom|Disease)*P(Disease)/P(Symptom)