gamlss.dist
Distributions for Generalized Additive Models for Location Scale and Shape
v6.1-1
·
Aug 23, 2023
·
GPL-2 | GPL-3
Description
A set of distributions which can be used for modelling the response variables in Generalized Additive Models for Location Scale and Shape, Rigby and Stasinopoulos (2005), <doi:10.1111/j.1467-9876.2005.00510.x>. The distributions can be continuous, discrete or mixed distributions. Extra distributions can be created, by transforming, any continuous distribution defined on the real line, to a distribution defined on ranges 0 to infinity or 0 to 1, by using a 'log' or a 'logit' transformation respectively.
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| r-devel-linux-x86_64-debian-clang | NOTE |
| r-devel-linux-x86_64-debian-gcc | NOTE |
| r-devel-linux-x86_64-fedora-clang | NOTE |
| r-devel-linux-x86_64-fedora-gcc | NOTE |
| r-devel-macos-arm64 | NOTE |
| r-devel-windows-x86_64 | NOTE |
| r-oldrel-macos-arm64 | NOTE |
| r-oldrel-macos-x86_64 | NOTE |
| r-oldrel-windows-x86_64 | NOTE |
| r-patched-linux-x86_64 | NOTE |
| r-release-linux-x86_64 | NOTE |
| r-release-macos-arm64 | NOTE |
| r-release-macos-x86_64 | NOTE |
| r-release-windows-x86_64 | NOTE |
Check details (14 non-OK)
NOTE
r-devel-linux-x86_64-debian-clang
Rd files
checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
| ^
checkRd: (-1) GU.rd:61: Lost braces
61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) IG.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) LOGITNO.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) Multinomial.Rd:69: Lost braces
69 | The function \code{MULTIN()} can be used instead of code{MN3()}, \code{MN4()} and \code{MN5()} by specifying the number of levels of the response. Note that \code{MULTIN(2)} will produce a binomial fit.
| ^
checkRd: (-1) PARETO2.Rd:38: Lost braces
38 | The parameters are \code{mu} and \code{sigma} in both functions but the parameterasation different. The \code{mu} is identical for both \code{PARETO2()} and \code{PARETO2o()}. The \code{sigma} in \code{PARETO2o()} is the inverse of the \code{sigma} in code{PARETO2()} and coresponse to the usual parameter \code{alpha} of the Patreto distribution. The functions \code{dPARETO2}, \code{pPARETO2}, \code{qPARETO2} and \code{rPARETO2} define the density, distribution function, quantile function and random generation for the \code{PARETO2} parameterization of the Pareto type 2 distribution while the functions \code{dPARETO2o}, \code{pPARETO2o}, \code{qPARETO2o} and \code{rPARETO2o} define the density, distribution function, quantile function and random generation for the original \code{PARETO2o} parameterization of the Pareto type 2 distribution
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) SI.Rd:70: Lost braces
70 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
NOTE
r-devel-linux-x86_64-debian-gcc
Rd files
checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
| ^
checkRd: (-1) GU.rd:61: Lost braces
61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) IG.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) LOGITNO.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) Multinomial.Rd:69: Lost braces
69 | The function \code{MULTIN()} can be used instead of code{MN3()}, \code{MN4()} and \code{MN5()} by specifying the number of levels of the response. Note that \code{MULTIN(2)} will produce a binomial fit.
| ^
checkRd: (-1) PARETO2.Rd:38: Lost braces
38 | The parameters are \code{mu} and \code{sigma} in both functions but the parameterasation different. The \code{mu} is identical for both \code{PARETO2()} and \code{PARETO2o()}. The \code{sigma} in \code{PARETO2o()} is the inverse of the \code{sigma} in code{PARETO2()} and coresponse to the usual parameter \code{alpha} of the Patreto distribution. The functions \code{dPARETO2}, \code{pPARETO2}, \code{qPARETO2} and \code{rPARETO2} define the density, distribution function, quantile function and random generation for the \code{PARETO2} parameterization of the Pareto type 2 distribution while the functions \code{dPARETO2o}, \code{pPARETO2o}, \code{qPARETO2o} and \code{rPARETO2o} define the density, distribution function, quantile function and random generation for the original \code{PARETO2o} parameterization of the Pareto type 2 distribution
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) SI.Rd:70: Lost braces
70 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
NOTE
r-devel-linux-x86_64-fedora-clang
Rd files
checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
| ^
checkRd: (-1) GU.rd:61: Lost braces
61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) IG.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) LOGITNO.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) Multinomial.Rd:69: Lost braces
69 | The function \code{MULTIN()} can be used instead of code{MN3()}, \code{MN4()} and \code{MN5()} by specifying the number of levels of the response. Note that \code{MULTIN(2)} will produce a binomial fit.
| ^
checkRd: (-1) PARETO2.Rd:38: Lost braces
38 | The parameters are \code{mu} and \code{sigma} in both functions but the parameterasation different. The \code{mu} is identical for both \code{PARETO2()} and \code{PARETO2o()}. The \code{sigma} in \code{PARETO2o()} is the inverse of the \code{sigma} in code{PARETO2()} and coresponse to the usual parameter \code{alpha} of the Patreto distribution. The functions \code{dPARETO2}, \code{pPARETO2}, \code{qPARETO2} and \code{rPARETO2} define the density, distribution function, quantile function and random generation for the \code{PARETO2} parameterization of the Pareto type 2 distribution while the functions \code{dPARETO2o}, \code{pPARETO2o}, \code{qPARETO2o} and \code{rPARETO2o} define the density, distribution function, quantile function and random generation for the original \code{PARETO2o} parameterization of the Pareto type 2 distribution
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) SI.Rd:70: Lost braces
70 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
NOTE
r-devel-linux-x86_64-fedora-gcc
Rd files
checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
| ^
checkRd: (-1) GU.rd:61: Lost braces
61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) IG.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) LOGITNO.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) Multinomial.Rd:69: Lost braces
69 | The function \code{MULTIN()} can be used instead of code{MN3()}, \code{MN4()} and \code{MN5()} by specifying the number of levels of the response. Note that \code{MULTIN(2)} will produce a binomial fit.
| ^
checkRd: (-1) PARETO2.Rd:38: Lost braces
38 | The parameters are \code{mu} and \code{sigma} in both functions but the parameterasation different. The \code{mu} is identical for both \code{PARETO2()} and \code{PARETO2o()}. The \code{sigma} in \code{PARETO2o()} is the inverse of the \code{sigma} in code{PARETO2()} and coresponse to the usual parameter \code{alpha} of the Patreto distribution. The functions \code{dPARETO2}, \code{pPARETO2}, \code{qPARETO2} and \code{rPARETO2} define the density, distribution function, quantile function and random generation for the \code{PARETO2} parameterization of the Pareto type 2 distribution while the functions \code{dPARETO2o}, \code{pPARETO2o}, \code{qPARETO2o} and \code{rPARETO2o} define the density, distribution function, quantile function and random generation for the original \code{PARETO2o} parameterization of the Pareto type 2 distribution
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) SI.Rd:70: Lost braces
70 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
NOTE
r-devel-macos-arm64
Rd files
checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
| ^
checkRd: (-1) GU.rd:61: Lost braces
61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) IG.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) LOGITNO.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) Multinomial.Rd:69: Lost braces
69 | The function \code{MULTIN()} can be used instead of code{MN3()}, \code{MN4()} and \code{MN5()} by specifying the number of levels of the response. Note that \code{MULTIN(2)} will produce a binomial fit.
| ^
checkRd: (-1) PARETO2.Rd:38: Lost braces
38 | The parameters are \code{mu} and \code{sigma} in both functions but the parameterasation different. The \code{mu} is identical for both \code{PARETO2()} and \code{PARETO2o()}. The \code{sigma} in \code{PARETO2o()} is the inverse of the \code{sigma} in code{PARETO2()} and coresponse to the usual parameter \code{alpha} of the Patreto distribution. The functions \code{dPARETO2}, \code{pPARETO2}, \code{qPARETO2} and \code{rPARETO2} define the density, distribution function, quantile function and random generation for the \code{PARETO2} parameterization of the Pareto type 2 distribution while the functions \code{dPARETO2o}, \code{pPARETO2o}, \code{qPARETO2o} and \code{rPARETO2o} define the density, distribution function, quantile function and random generation for the original \code{PARETO2o} parameterization of the Pareto type 2 distribution
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) SI.Rd:70: Lost braces
70 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
NOTE
r-devel-windows-x86_64
Rd files
checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
| ^
checkRd: (-1) GU.rd:61: Lost braces
61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) IG.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) LOGITNO.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) Multinomial.Rd:69: Lost braces
69 | The function \code{MULTIN()} can be used instead of code{MN3()}, \code{MN4()} and \code{MN5()} by specifying the number of levels of the response. Note that \code{MULTIN(2)} will produce a binomial fit.
| ^
checkRd: (-1) PARETO2.Rd:38: Lost braces
38 | The parameters are \code{mu} and \code{sigma} in both functions but the parameterasation different. The \code{mu} is identical for both \code{PARETO2()} and \code{PARETO2o()}. The \code{sigma} in \code{PARETO2o()} is the inverse of the \code{sigma} in code{PARETO2()} and coresponse to the usual parameter \code{alpha} of the Patreto distribution. The functions \code{dPARETO2}, \code{pPARETO2}, \code{qPARETO2} and \code{rPARETO2} define the density, distribution function, quantile function and random generation for the \code{PARETO2} parameterization of the Pareto type 2 distribution while the functions \code{dPARETO2o}, \code{pPARETO2o}, \code{qPARETO2o} and \code{rPARETO2o} define the density, distribution function, quantile function and random generation for the original \code{PARETO2o} parameterization of the Pareto type 2 distribution
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) SI.Rd:70: Lost braces
70 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
NOTE
r-oldrel-macos-arm64
Rd files
checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
| ^
checkRd: (-1) GU.rd:61: Lost braces
61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) IG.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) LOGITNO.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) Multinomial.Rd:69: Lost braces
69 | The function \code{MULTIN()} can be used instead of code{MN3()}, \code{MN4()} and \code{MN5()} by specifying the number of levels of the response. Note that \code{MULTIN(2)} will produce a binomial fit.
| ^
checkRd: (-1) PARETO2.Rd:38: Lost braces
38 | The parameters are \code{mu} and \code{sigma} in both functions but the parameterasation different. The \code{mu} is identical for both \code{PARETO2()} and \code{PARETO2o()}. The \code{sigma} in \code{PARETO2o()} is the inverse of the \code{sigma} in code{PARETO2()} and coresponse to the usual parameter \code{alpha} of the Patreto distribution. The functions \code{dPARETO2}, \code{pPARETO2}, \code{qPARETO2} and \code{rPARETO2} define the density, distribution function, quantile function and random generation for the \code{PARETO2} parameterization of the Pareto type 2 distribution while the functions \code{dPARETO2o}, \code{pPARETO2o}, \code{qPARETO2o} and \code{rPARETO2o} define the density, distribution function, quantile function and random generation for the original \code{PARETO2o} parameterization of the Pareto type 2 distribution
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) SI.Rd:70: Lost braces
70 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
NOTE
r-oldrel-macos-x86_64
Rd files
checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
| ^
checkRd: (-1) GU.rd:61: Lost braces
61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) IG.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) LOGITNO.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) Multinomial.Rd:69: Lost braces
69 | The function \code{MULTIN()} can be used instead of code{MN3()}, \code{MN4()} and \code{MN5()} by specifying the number of levels of the response. Note that \code{MULTIN(2)} will produce a binomial fit.
| ^
checkRd: (-1) PARETO2.Rd:38: Lost braces
38 | The parameters are \code{mu} and \code{sigma} in both functions but the parameterasation different. The \code{mu} is identical for both \code{PARETO2()} and \code{PARETO2o()}. The \code{sigma} in \code{PARETO2o()} is the inverse of the \code{sigma} in code{PARETO2()} and coresponse to the usual parameter \code{alpha} of the Patreto distribution. The functions \code{dPARETO2}, \code{pPARETO2}, \code{qPARETO2} and \code{rPARETO2} define the density, distribution function, quantile function and random generation for the \code{PARETO2} parameterization of the Pareto type 2 distribution while the functions \code{dPARETO2o}, \code{pPARETO2o}, \code{qPARETO2o} and \code{rPARETO2o} define the density, distribution function, quantile function and random generation for the original \code{PARETO2o} parameterization of the Pareto type 2 distribution
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) SI.Rd:70: Lost braces
70 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
NOTE
r-oldrel-windows-x86_64
Rd files
checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
| ^
checkRd: (-1) GU.rd:61: Lost braces
61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) IG.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) LOGITNO.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) Multinomial.Rd:69: Lost braces
69 | The function \code{MULTIN()} can be used instead of code{MN3()}, \code{MN4()} and \code{MN5()} by specifying the number of levels of the response. Note that \code{MULTIN(2)} will produce a binomial fit.
| ^
checkRd: (-1) PARETO2.Rd:38: Lost braces
38 | The parameters are \code{mu} and \code{sigma} in both functions but the parameterasation different. The \code{mu} is identical for both \code{PARETO2()} and \code{PARETO2o()}. The \code{sigma} in \code{PARETO2o()} is the inverse of the \code{sigma} in code{PARETO2()} and coresponse to the usual parameter \code{alpha} of the Patreto distribution. The functions \code{dPARETO2}, \code{pPARETO2}, \code{qPARETO2} and \code{rPARETO2} define the density, distribution function, quantile function and random generation for the \code{PARETO2} parameterization of the Pareto type 2 distribution while the functions \code{dPARETO2o}, \code{pPARETO2o}, \code{qPARETO2o} and \code{rPARETO2o} define the density, distribution function, quantile function and random generation for the original \code{PARETO2o} parameterization of the Pareto type 2 distribution
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) SI.Rd:70: Lost braces
70 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
NOTE
r-patched-linux-x86_64
Rd files
checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
| ^
checkRd: (-1) GU.rd:61: Lost braces
61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) IG.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) LOGITNO.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) Multinomial.Rd:69: Lost braces
69 | The function \code{MULTIN()} can be used instead of code{MN3()}, \code{MN4()} and \code{MN5()} by specifying the number of levels of the response. Note that \code{MULTIN(2)} will produce a binomial fit.
| ^
checkRd: (-1) PARETO2.Rd:38: Lost braces
38 | The parameters are \code{mu} and \code{sigma} in both functions but the parameterasation different. The \code{mu} is identical for both \code{PARETO2()} and \code{PARETO2o()}. The \code{sigma} in \code{PARETO2o()} is the inverse of the \code{sigma} in code{PARETO2()} and coresponse to the usual parameter \code{alpha} of the Patreto distribution. The functions \code{dPARETO2}, \code{pPARETO2}, \code{qPARETO2} and \code{rPARETO2} define the density, distribution function, quantile function and random generation for the \code{PARETO2} parameterization of the Pareto type 2 distribution while the functions \code{dPARETO2o}, \code{pPARETO2o}, \code{qPARETO2o} and \code{rPARETO2o} define the density, distribution function, quantile function and random generation for the original \code{PARETO2o} parameterization of the Pareto type 2 distribution
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) SI.Rd:70: Lost braces
70 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
NOTE
r-release-linux-x86_64
Rd files
checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
| ^
checkRd: (-1) GU.rd:61: Lost braces
61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) IG.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) LOGITNO.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) Multinomial.Rd:69: Lost braces
69 | The function \code{MULTIN()} can be used instead of code{MN3()}, \code{MN4()} and \code{MN5()} by specifying the number of levels of the response. Note that \code{MULTIN(2)} will produce a binomial fit.
| ^
checkRd: (-1) PARETO2.Rd:38: Lost braces
38 | The parameters are \code{mu} and \code{sigma} in both functions but the parameterasation different. The \code{mu} is identical for both \code{PARETO2()} and \code{PARETO2o()}. The \code{sigma} in \code{PARETO2o()} is the inverse of the \code{sigma} in code{PARETO2()} and coresponse to the usual parameter \code{alpha} of the Patreto distribution. The functions \code{dPARETO2}, \code{pPARETO2}, \code{qPARETO2} and \code{rPARETO2} define the density, distribution function, quantile function and random generation for the \code{PARETO2} parameterization of the Pareto type 2 distribution while the functions \code{dPARETO2o}, \code{pPARETO2o}, \code{qPARETO2o} and \code{rPARETO2o} define the density, distribution function, quantile function and random generation for the original \code{PARETO2o} parameterization of the Pareto type 2 distribution
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) SI.Rd:70: Lost braces
70 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
NOTE
r-release-macos-arm64
Rd files
checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
| ^
checkRd: (-1) GU.rd:61: Lost braces
61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) IG.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) LOGITNO.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) Multinomial.Rd:69: Lost braces
69 | The function \code{MULTIN()} can be used instead of code{MN3()}, \code{MN4()} and \code{MN5()} by specifying the number of levels of the response. Note that \code{MULTIN(2)} will produce a binomial fit.
| ^
checkRd: (-1) PARETO2.Rd:38: Lost braces
38 | The parameters are \code{mu} and \code{sigma} in both functions but the parameterasation different. The \code{mu} is identical for both \code{PARETO2()} and \code{PARETO2o()}. The \code{sigma} in \code{PARETO2o()} is the inverse of the \code{sigma} in code{PARETO2()} and coresponse to the usual parameter \code{alpha} of the Patreto distribution. The functions \code{dPARETO2}, \code{pPARETO2}, \code{qPARETO2} and \code{rPARETO2} define the density, distribution function, quantile function and random generation for the \code{PARETO2} parameterization of the Pareto type 2 distribution while the functions \code{dPARETO2o}, \code{pPARETO2o}, \code{qPARETO2o} and \code{rPARETO2o} define the density, distribution function, quantile function and random generation for the original \code{PARETO2o} parameterization of the Pareto type 2 distribution
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) SI.Rd:70: Lost braces
70 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
NOTE
r-release-macos-x86_64
Rd files
checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
| ^
checkRd: (-1) GU.rd:61: Lost braces
61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) IG.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) LOGITNO.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) Multinomial.Rd:69: Lost braces
69 | The function \code{MULTIN()} can be used instead of code{MN3()}, \code{MN4()} and \code{MN5()} by specifying the number of levels of the response. Note that \code{MULTIN(2)} will produce a binomial fit.
| ^
checkRd: (-1) PARETO2.Rd:38: Lost braces
38 | The parameters are \code{mu} and \code{sigma} in both functions but the parameterasation different. The \code{mu} is identical for both \code{PARETO2()} and \code{PARETO2o()}. The \code{sigma} in \code{PARETO2o()} is the inverse of the \code{sigma} in code{PARETO2()} and coresponse to the usual parameter \code{alpha} of the Patreto distribution. The functions \code{dPARETO2}, \code{pPARETO2}, \code{qPARETO2} and \code{rPARETO2} define the density, distribution function, quantile function and random generation for the \code{PARETO2} parameterization of the Pareto type 2 distribution while the functions \code{dPARETO2o}, \code{pPARETO2o}, \code{qPARETO2o} and \code{rPARETO2o} define the density, distribution function, quantile function and random generation for the original \code{PARETO2o} parameterization of the Pareto type 2 distribution
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) SI.Rd:70: Lost braces
70 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
NOTE
r-release-windows-x86_64
Rd files
checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
| ^
checkRd: (-1) GU.rd:61: Lost braces
61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) IG.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) LOGITNO.Rd:55: Lost braces
55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
checkRd: (-1) Multinomial.Rd:69: Lost braces
69 | The function \code{MULTIN()} can be used instead of code{MN3()}, \code{MN4()} and \code{MN5()} by specifying the number of levels of the response. Note that \code{MULTIN(2)} will produce a binomial fit.
| ^
checkRd: (-1) PARETO2.Rd:38: Lost braces
38 | The parameters are \code{mu} and \code{sigma} in both functions but the parameterasation different. The \code{mu} is identical for both \code{PARETO2()} and \code{PARETO2o()}. The \code{sigma} in \code{PARETO2o()} is the inverse of the \code{sigma} in code{PARETO2()} and coresponse to the usual parameter \code{alpha} of the Patreto distribution. The functions \code{dPARETO2}, \code{pPARETO2}, \code{qPARETO2} and \code{rPARETO2} define the density, distribution function, quantile function and random generation for the \code{PARETO2} parameterization of the Pareto type 2 distribution while the functions \code{dPARETO2o}, \code{pPARETO2o}, \code{qPARETO2o} and \code{rPARETO2o} define the density, distribution function, quantile function and random generation for the original \code{PARETO2o} parameterization of the Pareto type 2 distribution
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) PIG.Rd:31: Lost braces
31 | generation for the Poisson-inverse Gaussian \code{PIG()}, distribution. Also code{dPIG2}, \code{pPIG2}, \code{qPIG2} and \code{rPIG2} are the equivalent functions for code{PIG2()}
| ^
checkRd: (-1) SI.Rd:70: Lost braces
70 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
| ^
Check History
NOTE 0 OK · 14 NOTE · 0 WARNING · 0 ERROR · 0 FAILURE Mar 9, 2026
NOTE
r-devel-linux-x86_64-debian-clang
Rd files
checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
| ^
checkRd: (-1) GU.rd:61: Lost braces
61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
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55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec
NOTE
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checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
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61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
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55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec
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checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
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61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
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55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec
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checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
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checkRd: (-1) GU.rd:61: Lost braces
61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
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55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec
NOTE
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checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
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61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
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55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec
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checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
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61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
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55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec
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checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
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61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
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55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec
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checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
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61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
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55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec
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checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
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61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
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55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec
NOTE
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checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
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61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
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55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec
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checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
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61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
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55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec
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checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
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61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
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55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec
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checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
| ^
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61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
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55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec
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checkRd: (-1) GEOM.Rd:56: Lost braces
56 | for eqn{y=0,1,2,3,...} and \eqn{\mu>0}, see pp 473-474 of Rigby et al. (2019).
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61 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec 2007, \\doi{10.18637/jss.v023.i07}.
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55 | \emph{Journal of Statistical Software}, Vol. \bold{23}, Issue 7, Dec
Reverse Dependencies (62)
depends
imports
AGD
BCSreg
ComBatFamQC
DiscreteDists
ExGaussEstim
GJRM
GenHMM1d
ImputeRobust
PLreg
PReMiuM
QFASA
RTMBdist
RelDists
SEI
SPIChanges
SVEMnet
SelectBoost.beta
SimSST
ZINAR1
ZeroOneDists
actuary
asymmetry.measures
childsds
dsBase
gamlss.foreach
gamlssx
hytest
list
mixpoissonreg
normref
orders
powdist
rpql
rregm
spatemR
sregsurvey
ugomquantreg
vasicekreg
Dependency Network
Version History
new
6.1-1
Mar 9, 2026