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# PERT distribution

Parameters Probability density function Example density curves for the PERT probability distribution Cumulative distribution function Example cumulative distribution curves for the PERT probability distribution ${\displaystyle b>a\,}$ (real) ${\displaystyle c>b\,}$ (real) ${\displaystyle x\in [a,c]\,}$ ${\displaystyle {\frac {(x-a)^{\alpha -1}(c-x)^{\beta -1}}{\mathrm {B} (\alpha ,\beta )(c-a)^{\alpha +\beta -1}}}}$ where ${\displaystyle \alpha ={\frac {4b+c-5a}{c-a}}=1+4{\frac {b-a}{c-a}}}$ ${\displaystyle \beta ={\frac {5c-a-4b}{c-a}}=1+4{\frac {c-b}{c-a}}}$ ${\displaystyle I_{z}(\alpha ,\beta )}$ (the regularized incomplete beta function) with ${\displaystyle z=(x-a)/(c-a)}$ ${\displaystyle \operatorname {E} [X]={\frac {a+4b+c}{6}}=\mu }$ ${\displaystyle I_{\frac {1}{2}}^{[-1]}(\alpha ,\beta )(c-a)+a}$ ${\displaystyle \approx a+(c-a){\frac {\alpha -1/3}{\alpha +\beta -2/3}}={\frac {a+6b+c}{8}}}$ ${\displaystyle b}$ ${\displaystyle \operatorname {var} [X]={\frac {(\mu -a)(c-\mu )}{7}}}$ ${\displaystyle {\frac {2\,(\beta -\alpha ){\sqrt {\alpha +\beta +1}}}{(\alpha +\beta +2){\sqrt {\alpha \beta }}}}}$ ${\displaystyle {\frac {6[(\alpha -\beta )^{2}(\alpha +\beta +1)-\alpha \beta (\alpha +\beta +2)]}{\alpha \beta (\alpha +\beta +2)(\alpha +\beta +3)}}}$

In probability and statistics, the PERT distribution is a family of continuous probability distributions defined by the minimum (a), most likely (b) and maximum (c) values that a variable can take. It is a transformation of the four-parameter Beta distribution with an additional assumption that its expected value is

${\displaystyle \mu ={\frac {a+4b+c}{6}}.}$

The mean of the distribution is therefore defined as the weighted average of the minimum, most likely and maximum values that the variable may take, with four times the weight applied to the most likely value. This assumption about the mean was first proposed in Clark, 1962[1] for estimating the effect of uncertainty of task durations on the outcome of a project schedule being evaluated using the program evaluation and review technique, hence its name. The mathematics of the distribution resulted from the authors' desire to make the standard deviation equal to about 1/6th of the range.[2][3] The PERT distribution is widely used in risk analysis[4] to represent the uncertainty of the value of some quantity where one is relying on subjective estimates, because the three parameters defining the distribution are intuitive to the estimator. The PERT distribution is featured in most simulation software tools.

## Comparison with the triangular distribution

Comparing density curves for the PERT and triangular probability distributions

The PERT distribution offers an alternative[5] to using the triangular distribution which takes the same three parameters. The PERT distribution has a smoother shape than the Triangular distribution. The triangular distribution has a mean equal to the average of the three parameters:

${\displaystyle \mu ={\frac {a+b+c}{3}}}$

The formula places equal emphasis on the extreme values which are usually less-well known than the most likely value, and can therefore be unduly influenced by poor estimation of an extreme. The triangular distribution also has an angular shape that does not match the smoother shape that typifies subjective knowledge:

## The modified-PERT distribution

Comparing density curves for the modified PERT distributions with different weights

The PERT distribution assigns very small probability to extreme values, particularly to the extreme furthest away from the most likely value if the distribution is strongly skewed.[6][7] The Modified PERT distribution [8] was proposed to provide more control on how much probability is assigned to tail values of the distribution. The modified-PERT introduces a fourth parameter ${\displaystyle \gamma ,}$ that controls the weight of the most likely value in the determination of the mean:

${\displaystyle \mu ={\frac {a+\gamma b+c}{\gamma +2}}}$

Typically, values of between 2 and 3.5 are used for ${\displaystyle \gamma ,}$ and have the effect of flattening the density curve. This is useful for highly skewed distributions where the distances ${\displaystyle (b-a),}$ and ${\displaystyle (c-b),}$ are of very different sizes.

The modified-PERT distribution has been implemented in several simulation packages and programming languages:

## References

1. ^ Clark CE (1962) The PERT model for the distribution of an activity. Operations Research 10, pp. 405406
2. ^ "PERT distribution". Vose Software. 2017-05-02. Retrieved 2017-07-16.
3. ^ Continuous Univariate Distributions - 2nd Ed (1995). Johnson K, Kotz S and Balakkrishnan N. (Section 25.4)
4. ^ Project Management Body of Knowledge: 5th Ed (2013). Project Management Institute Chapter 6
5. ^ Simulation Modeling and Analysis (2000). Law AM and Kelton WD. Section 6.11
6. ^ Business Risk and Simulation Modelling in Practice (2015). M Rees. Section 9.1.8
7. ^ Risk Analysis – a Quantitative Guide: 3rd Ed. (2008) Vose D
8. ^ Paulo Buchsbaum (June 9, 2012). "Modified Pert Simulation" (PDF). Greatsolutions.com.br. Archived from the original on December 23, 2018. Retrieved July 14, 2017.
9. ^ "Modified PERT distribution". Vose Software. 2017-05-02. Retrieved 2017-07-16.
10. ^ "Probability distributions used in Tamara". Vose Software. 2017-05-02. Retrieved 2017-07-16.
11. ^ "PERTDistribution—Wolfram Language Documentation". Reference.wolfram.com. Retrieved 2017-07-16.
12. ^ "Package 'mc2d'" (PDF). 2017-03-06. Retrieved 2020-12-16.
13. ^ "PertDist". 2020-12-06. Retrieved 2021-01-05.