mbetag: modified beta G distribution

Computes the pdf, cdf, quantile, and random numbers, draws the q-q plot, and estimates the parameters of the modified beta G distribution. General form for the probability density function (pdf) of the modified beta G distribution due to Nadarajah et al. (2013) is given by $$f(x,{\Theta}) = \frac{{{d^a}g(x-\mu,\theta ){{\left( {G(x-\mu,\theta )} \right)}^{a - 1}}{{\left( {1 - G(x-\mu,\theta )} \right)}^{b - 1}}}}{{B(a,b){{\left[ {1 - \left( {1 - d} \right)G(x-\mu,\theta )} \right]}^{a + b}}}},$$ where \(\theta\) is the baseline family parameter vector. Also, a>0, b>0, d>0, and \(\mu\) are the extra parameters induced to the baseline cumulative distribution function (cdf) G whose pdf is g. The general form for the cdf of the modified beta G distribution is given by $$F(x,{\Theta}) = \frac{{\int_0^{\frac{{d\,G(x-\mu,\theta )}}{{1 - (1 - d)G(x-\mu,\theta )}}} {{y^{a - 1}}{{\left( {1 - y} \right)}^{b - 1}}} dy}}{{B(a,b)}}.$$ Here, the baseline G refers to the cdf of famous families such as: Birnbaum-Saunders, Burr type XII, Exponential, Chen, Chisquare, F, Frechet, Gamma, Gompertz, Linear failure rate (lfr), Log-normal, Log-logistic, Lomax, Rayleigh, and Weibull. The parameter vector is \(\Theta=(a,b,d,\theta,\mu)\) where \(\theta\) is the baseline G family's parameter space. If \(\theta\) consists of the shape and scale parameters, the last component of \(\theta\) is the scale parameter (here, a, b, and d are the first, second, and the third shape parameters). Always, the location parameter \(\mu\) is placed in the last component of \(\Theta\).

Cheng, R. C. H. and Stephens, M. A. (1989). A goodness-of-fit test using Moran's statistic with estimated parameters, Biometrika, 76 (2), 385-392.

Nadarajah, S., Teimouri, M., and Shih, S. H. (2014). Modified beta distributions, Sankhya, 76 (1), 19-48.