Post on 23-Feb-2016
description
ProbabilityMonty Hall, Bayes Law, and why Anya
probably isn’t autistic
Arup Guhadmarino@cs.ucf.edu
1/14/2013
Probability Basics
Sample Space: All possible options – each one MUST BE equally likely!!!
Success Space: The items in the sample space defined as “desired”
Probability: the number of successes divided by the sample space
Example: Simple die roll We need to roll a 3 or a 5 to win the game. Sample Space = 6 (we can roll 1, 2, 3, 4, 5 or 6) Success Space = 2 (3 or 5) Probability(winning) = 2/6 = 1/3
Probability Pitfalls
Incorrect Sample Space Sum of the rolls of two
dice has 11 possibilities, 2 – 12
Problem: Not all of these are equally likely. Chance of rolling a 2 is 1/36,
since we must roll two 1s in a roll
Chance of rolling a 7 is 1/6. No matter what we roll at first, one option on the second die allows us to get a sum of 7.
Incorrect Counting Given that one die out of two
rolled shows a 6, what is the probability that the sum is 8.
Clearly two rolls sum to 8 (2, 6) and (6, 2). But how many show at least one 6?
If we say that the 6 can appear in two slots and the other slot can have 6 choices, we arrive at 2x6 = 12.
But, 11 is correct: (1,6), (2,6), (3,6), (4, 6), (5,6), (6,6), (6, 5), (6,4), (6,3), (6,2), and (6,1).
Pick one of three doors!Monty then reveals one of the other two doors with a goat. You are
given the choice to stay with your original choice or switch!
Monty Hall – Let’s Make a Deal
Door #1 Door #2 Door #3
Imagine Playing the game 99 times!!!Initial Choice Correct
Stay Strategy This will occur roughly 33
times If we stay in these
situations, we win! We win 33 times here!
Initial Choice IncorrectStay Strategy
This will occur roughly 66 times
If we stay in these situations, we lose.
We win in none of these situations.
We win 33 out of 99 times. This is 1/3.
Imagine Playing the game 99 times!!!Initial Choice Correct
Switch Strategy This will occur roughly 33
times If we switch in these
situations, we lose We win 0 times here.
Initial Choice IncorrectSwitch Strategy
This will occur roughly 66 times If we switch in these situations, we
win, since Monty was forced to reveal the other goat!!!
We win in 66 of these situations!
We win 66 out of 99 times. This is 2/3.
Conditional Probability
Definition: P(A | B) = probability of A occurring, given that B has occurred.
Formula: Intuitively: Once we know that B has occurred, we limit
our sample space to include only situations where B happens. Of these, successes are when both A and B occur. Note that we shouldn’t count situations were A occurs but B doesn’t.
If A and B are related, then P(A) ≠ P(A|B). Intuitively, knowing about B ought to change our
probability of A occurring, if the two items are related!
Example: COP 3223 Spring 2012 Data
Sample Space: 175 students Number of A’s: 37 Number of students who spent less than 2 hours per
assignment: 13 Number of students of those who spent less than 2 hours per
assignment earning an A: 6 Probability earning A = 37/175 ~ 21% Probability earning A given that you spent less than 2 hours
per program: = 6/13 ~ 46% Question: What is the probability of earning an A given that
you spent 2 or more hours per program?
Example: New Orleans Saints 2012
Overall Record: 7 – 9 Record in games where Drew Brees threw for 300 or
more yards: 4 – 6 Record in games where Drew Brees threw for fewer than
300 yards: 3 – 3 P(W) = 7/16 = 43.75% P(W | Brees >= 300 yards) = 4/10 = 40% P(W | Brees < 300 yards) = 3/6 = 50% Counterintuitive result – why? (Teams are forced to
throw the ball more when they fall behind in a game.)
Bayes’ Law of Conditional Probability
.
Bayes’ Law of Conditional Probability
Breast Cancer Problem: Bayes’ Law
Note: The numbers used for the problem only apply to the population of all women who get tested and not a specific age group. The solution changes as we change our sample size to only be women of certain ages.
Set our variables: P(A) = Probability of having breast cancer P(B) = Probability of testing positive on a mammography test P(B | A) = probability of testing positive, given that you have the
disease P(A | B) = probability of having the disease, given that you tested
positive for it.
Breast Cancer Problem: Tree Diagram
Breast Cancer Problem - Solution
Now, we can see why the AMA doesn’t recommend mammography for women under the age of 40. Many false
positives impose a cost on the system and may cause harm and unnecessary worry for many people. For more detail on the AMA
position, go to:
http://labtestsonline.org/news/ama120810/
Nate Silver and Practical Application of Bayes
Use new information (given) to update estimates of existing probabilities
In reality, no estimate should be fixed. Rather all estimates ought to be continually updated to reflect new data.
Nate has applied these principles to the following fields: Prediction of Baseball Player Performance Online Poker Predicting the outcome of the 2008 and 2012 election
One More Dice Problem
Given that the sum of three standard six-sided dice rolled is 6, what is the probability that at least one of the dice shows a 2.
Sample Space: (1, 1, 4), (1, 4, 1), (4, 1, 1), (1, 2, 3), (1, 3, 2), (2, 1, 3), (2, 3, 1), (3, 1, 2), (3, 2, 1), and (2, 2, 2). (There are 10 ordered triplets here.)
Successes: (1, 2, 3), (1, 3, 2), (2, 1, 3), (2, 3, 1), (3, 1, 2), (3, 2, 1), and (2, 2, 2). (There are 7 of these.)
Probability = 7/10
Last, but not least, Anya!
Where is she looking? Child Development Normal Children
Look parents in the eye, usually by one month of age.
Autistic Children Often times, don’t look
parents in the eye by one month of age.
Anya and Bayes’ Law
My wife, a pediatrician, was worried since at 25 days or so, Anya wasn’t looking us in the eye.
Relevant Information Rate of Autism is believed to be 1.1% (1 in 90) We need to know what percentage of normal kids don’t look their
parents in the eye by one month. We need to know what percentage of kids with Autism do look their
parent in the eye by one month. Rough Bayes Law estimate
If even 15% percent of normal kids are below the curve, then, the probability that a kid has autism given that they haven’t looked their parent in the eye by day 25 is rather low! (Less than10%)