simuDataYP: Generate random times that follow the YP model with the Given...
In ELYP: Empirical Likelihood Analysis for the Cox Model and Yang-Prentice (2005) Model
Description
Usage
Arguments
Details
Value
Author(s)
References
Examples
Description
This function is for simulations. It generates data from Yang-Prentice model with given/known parameters and may be
used later to see
how well some estimation procedure works on them. th1 = exp(beta1), th2 = exp(beta2), alphaX = $a' X$.
There is always a covariate Z that indicates the two samples, and the hazards of the two treatments follows the
Yang–Prentice model. The baseline hazard of sample one (where Z=0) is taken to be exponential.
Usage
1
simuDataYP(n1, n2, th1, th2, cens, alphaX)
Arguments
n1
sample size of first arm.
n2
sample size of second arm.
th1
the parameter of th1=exp(beta1). Short term.
th2
the parameter of th2=exp(beta2). Long term.
cens
logical, Either TRUE or FALSE.
alphaX
a vector of length n1+n2. It is the inner product of alpha and covariates X....the part that is proportional hazards.
This way, alpha can be p dimensional, However alpha times X is always a vector of length n1+n2.
Details
The hazard of the generated survival times, Y, have hazard function that is proportional to exp( alphaX ).
The hazard of arm 1 is constant, just exp( alphaX ).
The hazard of arm 2 is given as
exp(alphaX) / [ 1/th1 S_0(t) + 1/th2 F_0(t) ]
where S_0 and F_0 are survival function and CDF of a standard exponential random variable.
Value
A list with the following components:
Y
The survival times, possibly right censored.
d
The censoring status.
Zmat
the covariates used in generating random times.
Author(s)
Mai Zhou
References
Yang and Prientice. (2005). Semiparametric analysis of short term/long term hazard ratios with two sample survival data.
Biometrika
Examples
1
2
3
4
5
6
## generate data and covariates.
X <- -99:100/50 ## the covariate for alpha, 200 long
temp <- simuDataYP(n1=100, n2=100, th1=exp(1), th2=exp(-1), cens=TRUE, alphaX = -0.5*X)
## this generate a sample of censored data with n=200. beta1=1, beta2=-1, alpha= -0.5.
## and the design matrix or covariance matrix is
Zmat <- cbind(X, temp$Zmat)
ELYP documentation built on May 2, 2019, 5:17 a.m.
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Description Usage Arguments Details Value Author(s) References Examples
Description
This function is for simulations. It generates data from Yang-Prentice model with given/known parameters and may be used later to see how well some estimation procedure works on them. th1 = exp(beta1), th2 = exp(beta2), alphaX = $a' X$. There is always a covariate Z that indicates the two samples, and the hazards of the two treatments follows the Yang–Prentice model. The baseline hazard of sample one (where Z=0) is taken to be exponential.
Usage
1 | simuDataYP(n1, n2, th1, th2, cens, alphaX)
|
Arguments
n1 |
sample size of first arm. |
n2 |
sample size of second arm. |
th1 |
the parameter of th1=exp(beta1). Short term. |
th2 |
the parameter of th2=exp(beta2). Long term. |
cens |
logical, Either TRUE or FALSE. |
alphaX |
a vector of length n1+n2. It is the inner product of alpha and covariates X....the part that is proportional hazards. This way, alpha can be p dimensional, However alpha times X is always a vector of length n1+n2. |
Details
The hazard of the generated survival times, Y, have hazard function that is proportional to exp( alphaX ).
The hazard of arm 1 is constant, just exp( alphaX ). The hazard of arm 2 is given as exp(alphaX) / [ 1/th1 S_0(t) + 1/th2 F_0(t) ]
where S_0 and F_0 are survival function and CDF of a standard exponential random variable.
Value
A list with the following components:
Y |
The survival times, possibly right censored. |
d |
The censoring status. |
Zmat |
the covariates used in generating random times. |
Author(s)
Mai Zhou
References
Yang and Prientice. (2005). Semiparametric analysis of short term/long term hazard ratios with two sample survival data. Biometrika
Examples
1 2 3 4 5 6 | ## generate data and covariates.
X <- -99:100/50 ## the covariate for alpha, 200 long
temp <- simuDataYP(n1=100, n2=100, th1=exp(1), th2=exp(-1), cens=TRUE, alphaX = -0.5*X)
## this generate a sample of censored data with n=200. beta1=1, beta2=-1, alpha= -0.5.
## and the design matrix or covariance matrix is
Zmat <- cbind(X, temp$Zmat)
|
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