Laplacedf: Difference between revisions

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This distribution is a symmetric distribution also known as the double exponential distribution. It is more peaked than the normal distribution Leptokurtic rather than mesokurtic means that it has a sharper peak at the mean in the density plot than a similar normal density
This distribution is a symmetric distribution also known as the double exponential distribution. It is more peaked than the normal distribution Leptokurtic rather than mesokurtic means that it has a sharper peak at the mean in the density plot than a similar normal density
::<math>f(x) = \frac {1} {2b} \exp \left ( - \frac {|x-a|} {b} \right )</math>
::<math>F(x) = \frac {1} {2} \exp \left [ - \frac {a-x} {b} \right ] \mathrm {I} \left ( x<a \right) +1 - \frac {1} {2} \exp \left [ - \frac {x-a} {b} \right ] \mathrm {I} \left ( x \ge a \right )</math>


====Inputs====
====Inputs====
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'''Note''': If inputs (x, a, and b) are not equal in size, the function will attempt to resize all inputs to the largest input using the RESIZE function.  
'''Note''': If inputs (x, a, and b) are not equal in size, the function will attempt to resize all inputs to the largest input using the RESIZE function.  


'''Note''': Functions will typically allow input values outside of the acceptable range to be passed but such values will return NaN in the results.  
'''Note''': Functions will typically allow input values outside of the acceptable range to be passed but such values will return NaN in the results.


===Examples===
===Examples===

Latest revision as of 05:24, 10 October 2008

Purpose

Laplace distribution.

Synopsis

prob = laplacedf(function,x,a,b)

Description

Estimates cumulative distribution function (cumulative, cdf), probability density function (density, pdf), quantile (inverse of cdf), or random numbers for a Laplace distribution.

This distribution is a symmetric distribution also known as the double exponential distribution. It is more peaked than the normal distribution Leptokurtic rather than mesokurtic means that it has a sharper peak at the mean in the density plot than a similar normal density

Inputs

  • function = [ {'cumulative'} | 'density' | 'quantile' | 'random' ], defines the functionality to be used. Note that the function recognizes the first letter of each string so that the string could be: [ 'c' | 'd' | 'q' | 'r' ].
  • x = matrix in which the sample data is stored, in the interval (0,1).
for function=quantile - matrix with values in the interval (0,1).
for function=random - vector indicating the size of the random matrix to create.
  • a = scale parameter (real and positive).
  • b = shape parameter (real and positive).

Note: If inputs (x, a, and b) are not equal in size, the function will attempt to resize all inputs to the largest input using the RESIZE function.

Note: Functions will typically allow input values outside of the acceptable range to be passed but such values will return NaN in the results.

Examples

Cumulative

>> prob = laplacedf('c',0.99,1,2)
prob =
    0.4975
>> x    = [0:0.1:10];
>> plot(x,laplacedf('c',x,1,2),'b-',x,laplacedf('c',x,3,7),'r-')

Density

>> prob = laplacedf('d',0.99,1,1)
prob =
    0.4950
>> x    = [0:0.1:10];
>> plot(x,laplacedf('d',x,2,1),'b-',x,laplacedf('d',x,0.5,1),'r-')

Quantile

>> prob = laplacedf('q',0.99,0.5,1)
prob =
    4.4120

Random

>> prob = laplacedf('r',[4 1],2,1)
ans =
    0.4549
    0.4638
    0.3426
    0.5011

See Also

betadf, cauchydf, chidf, expdf, gammadf, gumbeldf, logisdf, lognormdf, normdf, paretodf, raydf, triangledf, unifdf, weibulldf