Problem 1¶
D = 'C' ( 0.33)
(Choice) (0.33)
/ | \
a=Head b=Head c=Head
0.2 0.6 0.8
P(Choice | Head, a=Head) =
P(Choice | Head, b=Head)
P(Choice | Head, c=Head)
Which is maximum of the three?
P(D |Head, a=Head) = P(Head |D) * P(a=Head/D)
Assuming you flip a coin, and it came up as Heads. Which coin is most likely to have produced that result. The answer’s pretty obvious, so provide a probabilistic justification for why you think so.
—
Bayes Rule
P(Choice=c | c=Head) = P(c=Head|Choice=c) * P(Choice=c)
= 0.8 * 0.3 * 0.3
= 0.072
P(Choice=b) = 0.6 * 0.3 * 0.3 = 0.054
P(Choice=a) = 0.2 * 0.3 * 0.3 = 0.018
Max of these. Choice = c.
—
P(C|c=Head) = P(c=Head|C) * P(C)
—
Independent Probability Multiplication
P(HHT|C=a) = P(a=Head|C=a) * P(a=Head|C=a) * P(a=Tail|C=a)
= (0.2 * 0.33) * (0.2 * 0.33) * (0.8 * 0.33)
= 0.0011499840000000002
= (0.2 * 0.2 * 0.8)
P(HHT|C=b) = P(b=Head|C=b) * P(b=Head|C=b) * P(b=Tail|C=b)
= (0.6 * 0.33) * (0.6 * 0.33) * (0.4 * 0.33)
= 0.0051749280000000005
// Winner
= (0.6 * 0.6 * 0.4)
P(HHT|C=c) = P(c=Head|C=c) * P(c=Head|C=c) * P(c=Tail|C=c )
= (0.8 * 0.33) * (0.8 * 0.33) * (0.2 * 0.33)
= 0.004599936000000001
= (0.8 * 0.8 * 0.2)