binofit
Binomial parameter estimates
Syntax
phat = binofit(x,n)
[phat,pci] = binofit(x,n)
[phat,pci] = binofit(x,n,alpha)
Description
phat = binofit(x,n) returns a maximum likelihood
estimate of the probability of success in a given binomial trial based on the number of
successes, x, observed in n independent trials. If
x = (x(1), x(2), ... x(k)) is a vector, binofit
returns a vector of the same size as x whose ith entry
is the parameter estimate for x(i). All k estimates are
independent of each other. If n = (n(1), n(2), ..., n(k)) is a vector of
the same size as x, the binomial fit, binofit, returns a
vector whose ith entry is the parameter estimate based on the number of
successes x(i) in n(i) independent trials. A scalar
value for x or n is expanded to the same size as the
other input.
[phat,pci] = binofit(x,n) returns
the probability estimate, phat, and the 95% confidence
intervals, pci. binofit uses
the Clopper-Pearson method to calculate confidence intervals.
[phat,pci] = binofit(x,n,alpha)
returns the 100(1 - alpha)% confidence intervals.
For example, alpha = 0.01 yields
99% confidence intervals.
Note
binofit behaves differently than other Statistics and Machine Learning Toolbox™ functions
that compute parameter estimates, in that it returns independent estimates
for each entry of x. By comparison, expfit returns
a single parameter estimate based on all the entries of x.
Unlike most other distribution fitting functions, the binofit function
treats its input x vector as a collection of measurements
from separate samples. If you want to treat x as
a single sample and compute a single parameter estimate for it, you
can use binofit(sum(x),sum(n)) when n is
a vector, and binofit(sum(X),N*length(X)) when n is
a scalar.
Examples
This example generates a binomial sample of 100 elements, where the probability of success in a given trial is 0.6, and then estimates this probability from the outcomes in the sample.
r = binornd(100,0.6); [phat,pci] = binofit(r,100) phat = 0.5800 pci = 0.4771 0.6780
The 95% confidence interval, pci, contains
the true value, 0.6.
References
[1] Johnson, N. L., S. Kotz, and A. W. Kemp. Univariate Discrete Distributions. Hoboken, NJ: Wiley-Interscience, 1993.
Extended Capabilities
Version History
Introduced before R2006a
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