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Triangular approximations for continuous random variables in risk analysis

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  • D Johnson

    (Loughborough University, Leicestershire)

Abstract

This paper examines further the problem of approximating the distribution of a continuous random variable based on three key percentiles, typically the median (50th percentile) and the 5% points (5th and 95th percentiles). This usually involves the two main distribution parameters, the mean and standard deviation, and, if possible, the distribution function concerned. Previous research has shown that the Pearson–Tukey formulae provide highly accurate estimates of the mean and standard deviation of a beta distribution (of the first kind), and that simple modifications to the standard deviation formula will improve the accuracy even further. However, little work has been done to establish the accuracy of these formulae for other distributions, or to examine the accuracy of alternative formulae based on triangular distribution approximations. We show that the Pearson–Tukey mean approximation remains highly accurate for a range of unbounded distributions, although the accuracy in these cases can be improved by a slightly different 3:10:3 weighting of the 5%, 50% and 95% points. In contrast, the Pearson–Tukey standard deviation formula is much less accurate for unbounded distributions, and can be bettered by a triangular approximation whose parameters are estimated from simple linear combinations of the three percentile points. In addition, triangular approximations allow the underlying distribution function to be estimated by a triangular cdf. It is shown that simple formulae for estimating the triangular parameters, involving weights of 23:−6:−1, −13:42:−13 and −1:−6:23, give not only universally accurate mean and standard deviation estimates, but also provide a good fit to the distribution function with a Kolmogorov–Smirov statistic which averages 0.1 across a wide range of distributions, and an even better fit for distributions which are not highly skewed.

Suggested Citation

  • D Johnson, 2002. "Triangular approximations for continuous random variables in risk analysis," Journal of the Operational Research Society, Palgrave Macmillan;The OR Society, vol. 53(4), pages 457-467, April.
  • Handle: RePEc:pal:jorsoc:v:53:y:2002:i:4:d:10.1057_palgrave.jors.2601330
    DOI: 10.1057/palgrave.jors.2601330
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    Citations

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    Cited by:

    1. von der Gracht, Heiko A. & Hommel, Ulrich & Prokesch, Tobias & Wohlenberg, Holger, 2016. "Testing weighting approaches for forecasting in a Group Wisdom Support System environment," Journal of Business Research, Elsevier, vol. 69(10), pages 4081-4094.
    2. James W. Taylor, 2005. "Generating Volatility Forecasts from Value at Risk Estimates," Management Science, INFORMS, vol. 51(5), pages 712-725, May.
    3. S Mohan & M Gopalakrishnan & H Balasubramanian & A Chandrashekar, 2007. "A lognormal approximation of activity duration in PERT using two time estimates," Journal of the Operational Research Society, Palgrave Macmillan;The OR Society, vol. 58(6), pages 827-831, June.
    4. Halina Kowalczyk & Tomasz Lyziak & Ewa Stanisławska, 2013. "A new approach to probabilistic surveys of professional forecasters and its application in the monetary policy context," NBP Working Papers 142, Narodowy Bank Polski.
    5. M Revie & T Bedford & L Walls, 2010. "Evaluation of elicitation methods to quantify Bayes linear models," Journal of Risk and Reliability, , vol. 224(4), pages 322-332, December.
    6. Angelos Liontakis & Alexandra Sintori & Irene Tzouramani, 2021. "The Role of the Start-Up Aid for Young Farmers in the Adoption of Innovative Agricultural Activities: The Case of Aloe Vera," Agriculture, MDPI, vol. 11(4), pages 1-24, April.
    7. Manouchehr Tavakoli & Neil Pumford & Mark Woodward & Alex Doney & John Chalmers & Stephen MacMahon & Ronald MacWalter, 2009. "An economic evaluation of a perindopril-based blood pressure lowering regimen for patients who have suffered a cerebrovascular event," The European Journal of Health Economics, Springer;Deutsche Gesellschaft für Gesundheitsökonomie (DGGÖ), vol. 10(1), pages 111-119, February.
    8. Fernando Rojas, 2017. "A methodology for stochastic inventory modelling with ARMA triangular distribution for new products," Cogent Business & Management, Taylor & Francis Journals, vol. 4(1), pages 1270706-127, January.
    9. Robert K. Hammond & J. Eric Bickel, 2013. "Reexamining Discrete Approximations to Continuous Distributions," Decision Analysis, INFORMS, vol. 10(1), pages 6-25, March.
    10. Glickman, Theodore S. & Xu, Feng, 2008. "The distribution of the product of two triangular random variables," Statistics & Probability Letters, Elsevier, vol. 78(16), pages 2821-2826, November.

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