The Negative Binomial Distribution - PowerPoint PPT Presentation

1 / 15
About This Presentation
Title:

The Negative Binomial Distribution

Description:

Now we put a success, with probability p, at the fifth trial so. Negative binomial ... Before proceeding, we ought to determine if we have assigned a total probability ... – PowerPoint PPT presentation

Number of Views:1592
Avg rating:3.0/5.0
Slides: 16
Provided by: imadk
Category:

less

Transcript and Presenter's Notes

Title: The Negative Binomial Distribution


1
The Negative Binomial Distribution
  • Often we want to wait for an event to occur. We
    may wait for an accident to occur at a certain
    intersection or families may wait until a male
    child is born. Such events are considered in the
    geometric random variable.

2
  • production processes items not meeting production
    specifications occasionally occur, but the
    detection of one such item may not in itself be a
    cause for alarm. Instead we may wait for a
    certain number of events to occur. The random
    variable involved is called a negative binomial
    random variable. We consider variables here.

3
  • One of two events (usually denoted by "success"
    or "failure") occur at each trial of the
    experiment,
  • The trials are independent,
  • The probability of success at any trial is p
    which we denote by P(S) p, and so the
    probability of failure at any trial is P(F) 1 -
    p q. We assume that these probabilities remain
    constant throughout our series of trials.

4
  • In the binomial random variable, we have a fixed
    number of trials, say n, and the random variable
    X is the number of successes that occur.
  • In Geometric random variable, we wait for the
    occurrence of the single event, so X is the
    waiting time for the event to occur.

5
negative binomial random variable
  • In the negative binomial random variable, we wait
    until a given number of events have occurred
    (usually more the one).
  • For example, lets wait until two events have
    occurred. Let X be the total number of trials
    necessary. The sample space and the associated
    probabilities now as follows

6
Negative binomial
X Points Probability
2 SS p2
3 FSS or SFS 2 p2q
4 FFSS or SFFS or FSFS 3p2q2
7
Negative binomial
  • The pattern in the probabilities here continues
    and in this case it is not difficult to guess
    what that pattern is. For example, if we want the
    second event to occur at the fifth trial (X5),
    the sample points are
  • FFFSS FSFFS SFFFS FFSFS
  • Since each of these sequences has the
    probability p2q3,we see that
  • P(X5) 4p2q3.

8
Negative binomial
  • We can determine this formula without writing
    down all the sample points in this way. We know
    that the fifth trial is the second S, so the
    first four trials must contain exactly one S and
    three Fs. These four trials constitute a
    binomial sequence, that is, we have four trials
    and want the probability of exactly one success
    among them. This has probability

9
Negative binomial
  • Now we put a success, with probability p, at the
    fifth trial so

10
Negative binomial
  • Lets generalize this reasoning. If the second
    success is to occur at trial x, the first x-1
    trials must contain exactly one S and x-2 Fs.
    This has probability

11
  • Now, putting a success at the xth trial, we have

12
Negative binomial
  • and we have determined the pattern for the
    waiting time for the second success in a series
    of trials that meet the conditions we gave.
  • Before proceeding, we ought to determine if we
    have assigned a total probability of 1 to the
    sample space.  So we must check that

13
  • To see that this is in fact correct, let S be the
    right hand side of the expression above

multiplying through by q we have
Subtracting the second series from the first
gives
14
  • and we recognize that
  • is a geometric series with the first term 1
    and ratio q so

15
  • It follows that
  • so that
  • pS p
  • meaning that S 1.
Write a Comment
User Comments (0)
About PowerShow.com