WeibullPH: Weibull distribution in proportional hazards parameterisation
In flexsurv: Flexible Parametric Survival and Multi-State Models
WeibullPH R Documentation
Weibull distribution in proportional hazards parameterisation
Description
Density, distribution function, hazards, quantile function and random
generation for the Weibull distribution in its proportional hazards
parameterisation.
Usage
dweibullPH(x, shape, scale = 1, log = FALSE)
pweibullPH(q, shape, scale = 1, lower.tail = TRUE, log.p = FALSE)
qweibullPH(p, shape, scale = 1, lower.tail = TRUE, log.p = FALSE)
hweibullPH(x, shape, scale = 1, log = FALSE)
HweibullPH(x, shape, scale = 1, log = FALSE)
rweibullPH(n, shape, scale = 1)
Arguments
x, q
Vector of quantiles.
shape
Vector of shape parameters.
scale
Vector of scale parameters.
log, log.p
logical; if TRUE, probabilities p are given as log(p).
lower.tail
logical; if TRUE (default), probabilities are P(X
\le x), otherwise, P(X > x).
p
Vector of probabilities.
n
number of observations. If length(n) > 1, the length is
taken to be the number required.
Details
The Weibull distribution in proportional hazards parameterisation with
‘shape’ parameter a and ‘scale’ parameter m has density given by
f(x) = a m x^{a-1} exp(- m x^a)
cumulative distribution function F(x) = 1 - exp( -m x^a ), survivor
function S(x) = exp( -m x^a ), cumulative hazard m x^a and
hazard a m x^{a-1}.
dweibull in base R has the alternative 'accelerated failure
time' (AFT) parameterisation with shape a and scale b. The shape parameter
a is the same in both versions. The scale parameters are related as
b = m^{-1/a}, equivalently m = b^-a.
In survival modelling, covariates are typically included through a linear
model on the log scale parameter. Thus, in the proportional hazards model,
the coefficients in such a model on m are interpreted as log hazard
ratios.
In the AFT model, covariates on b are interpreted as time
acceleration factors. For example, doubling the value of a covariate with
coefficient beta=log(2) would give half the expected survival time.
These coefficients are related to the log hazard ratios \gamma as
\beta = -\gamma / a.
Value
dweibullPH gives the density, pweibullPH gives the
distribution function, qweibullPH gives the quantile function,
rweibullPH generates random deviates, HweibullPH retuns the
cumulative hazard and hweibullPH the hazard.
Author(s)
Christopher Jackson <chris.jackson@mrc-bsu.cam.ac.uk>
See Also
dweibull
flexsurv documentation built on Sept. 12, 2024, 7:23 a.m.
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| WeibullPH | R Documentation |
Weibull distribution in proportional hazards parameterisation
Description
Density, distribution function, hazards, quantile function and random generation for the Weibull distribution in its proportional hazards parameterisation.
Usage
dweibullPH(x, shape, scale = 1, log = FALSE)
pweibullPH(q, shape, scale = 1, lower.tail = TRUE, log.p = FALSE)
qweibullPH(p, shape, scale = 1, lower.tail = TRUE, log.p = FALSE)
hweibullPH(x, shape, scale = 1, log = FALSE)
HweibullPH(x, shape, scale = 1, log = FALSE)
rweibullPH(n, shape, scale = 1)
Arguments
x, q |
Vector of quantiles. |
shape |
Vector of shape parameters. |
scale |
Vector of scale parameters. |
log, log.p |
logical; if TRUE, probabilities p are given as log(p). |
lower.tail |
logical; if TRUE (default), probabilities are |
p |
Vector of probabilities. |
n |
number of observations. If |
Details
The Weibull distribution in proportional hazards parameterisation with ‘shape’ parameter a and ‘scale’ parameter m has density given by
f(x) = a m x^{a-1} exp(- m x^a)
cumulative distribution function F(x) = 1 - exp( -m x^a ), survivor
function S(x) = exp( -m x^a ), cumulative hazard m x^a and
hazard a m x^{a-1}.
dweibull in base R has the alternative 'accelerated failure
time' (AFT) parameterisation with shape a and scale b. The shape parameter
a is the same in both versions. The scale parameters are related as
b = m^{-1/a}, equivalently m = b^-a.
In survival modelling, covariates are typically included through a linear
model on the log scale parameter. Thus, in the proportional hazards model,
the coefficients in such a model on m are interpreted as log hazard
ratios.
In the AFT model, covariates on b are interpreted as time
acceleration factors. For example, doubling the value of a covariate with
coefficient beta=log(2) would give half the expected survival time.
These coefficients are related to the log hazard ratios \gamma as
\beta = -\gamma / a.
Value
dweibullPH gives the density, pweibullPH gives the
distribution function, qweibullPH gives the quantile function,
rweibullPH generates random deviates, HweibullPH retuns the
cumulative hazard and hweibullPH the hazard.
Author(s)
Christopher Jackson <chris.jackson@mrc-bsu.cam.ac.uk>
See Also
dweibull
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