R/sensitivity_phi.R
In kristianhessellund/Multilogreg: Semi-parametric models for multivariate point pattern data
Defines functions
sensitivity.phis
Documented in
sensitivity.phis
#' @title Sensitivity of phi
#' @description Sensitivity of phi
#' @param alphas Current value of alpha
#' @param xis Current value of xi (log transformed)
#' @param sigmas Current value of sigma^2 (log transformed)
#' @param phis Current value of phi (log transformed)
#' @param fi exp(beta^T z(u))
#' @param fj exp(beta^T z(v))
#' @param R distance
#' @param mi mark of u
#' @param mj mark of v
#' @param mval all marks
#' @return Sensitivity of phi
#' @export
sensitivity.phis=function(alphas=alphas,xis,sigmas,phis,R=0,fi,fj,mi=NULL,mj=NULL,mval=NULL){
p=length(mval)
if(!is.matrix(alphas)){alphas=matrix(alphas,nrow=p)}
q = dim(alphas)[2]
k0=0
Ptmp <- matrix(NA,length(R),p^2)
for(k1 in 1:p){
for(k2 in 1:p){
k0 = k0 + 1
tmp1 <- 0
for(l in 1:q){tmp1 <- tmp1+alphas[k1,l]*alphas[k2,l]*exp(-R/exp(xis[l]))}
if(k1==k2){Ptmp[,k0] <- fi[,k1]*fj[,k2]*exp(tmp1+exp(sigmas[k2])*exp(-R/exp(phis[k2])))}
if(k1!=k2){Ptmp[,k0] <- fi[,k1]*fj[,k2]*exp(tmp1)}
}
}
aggPtmp <- rowSums(Ptmp)
# phi phi
h1 = matrix(0,p,p)
for(m in 1:p){
k0 = 0
grad.g1 = 0
for(i in 1:p){
for(j in 1:p){
k0 = k0 +1
if(i ==m & j == m){
tmp <- Ptmp[,k0]
grad.g1 = grad.g1 + sum((exp(sigmas[m])*exp(-R/exp(phis[m]))*(R/exp(phis[m])^2))^2*Ptmp[,k0]/aggPtmp)
}
}
}
h1[m,m] = grad.g1
}
grad.phi = matrix(0,p,length(R))
for(m in 1:p){
k0 = 0
for(i in 1:p){
for(j in 1:p){
k0 = k0 +1
if(m == i & m == j){
tmp <- Ptmp[,k0]
grad.phi[m,] = grad.phi[m,] + exp(sigmas[m])*exp(-R/exp(phis[m]))*(R/exp(phis[m])^2)*Ptmp[,k0]/aggPtmp
}
}
}
}
H.phi = h1 - grad.phi%*%t(grad.phi)
H.phi
}
kristianhessellund/Multilogreg documentation built on Jan. 1, 2021, 7:23 a.m.
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Defines functions sensitivity.phis
Documented in sensitivity.phis
#' @title Sensitivity of phi
#' @description Sensitivity of phi
#' @param alphas Current value of alpha
#' @param xis Current value of xi (log transformed)
#' @param sigmas Current value of sigma^2 (log transformed)
#' @param phis Current value of phi (log transformed)
#' @param fi exp(beta^T z(u))
#' @param fj exp(beta^T z(v))
#' @param R distance
#' @param mi mark of u
#' @param mj mark of v
#' @param mval all marks
#' @return Sensitivity of phi
#' @export
sensitivity.phis=function(alphas=alphas,xis,sigmas,phis,R=0,fi,fj,mi=NULL,mj=NULL,mval=NULL){
p=length(mval)
if(!is.matrix(alphas)){alphas=matrix(alphas,nrow=p)}
q = dim(alphas)[2]
k0=0
Ptmp <- matrix(NA,length(R),p^2)
for(k1 in 1:p){
for(k2 in 1:p){
k0 = k0 + 1
tmp1 <- 0
for(l in 1:q){tmp1 <- tmp1+alphas[k1,l]*alphas[k2,l]*exp(-R/exp(xis[l]))}
if(k1==k2){Ptmp[,k0] <- fi[,k1]*fj[,k2]*exp(tmp1+exp(sigmas[k2])*exp(-R/exp(phis[k2])))}
if(k1!=k2){Ptmp[,k0] <- fi[,k1]*fj[,k2]*exp(tmp1)}
}
}
aggPtmp <- rowSums(Ptmp)
# phi phi
h1 = matrix(0,p,p)
for(m in 1:p){
k0 = 0
grad.g1 = 0
for(i in 1:p){
for(j in 1:p){
k0 = k0 +1
if(i ==m & j == m){
tmp <- Ptmp[,k0]
grad.g1 = grad.g1 + sum((exp(sigmas[m])*exp(-R/exp(phis[m]))*(R/exp(phis[m])^2))^2*Ptmp[,k0]/aggPtmp)
}
}
}
h1[m,m] = grad.g1
}
grad.phi = matrix(0,p,length(R))
for(m in 1:p){
k0 = 0
for(i in 1:p){
for(j in 1:p){
k0 = k0 +1
if(m == i & m == j){
tmp <- Ptmp[,k0]
grad.phi[m,] = grad.phi[m,] + exp(sigmas[m])*exp(-R/exp(phis[m]))*(R/exp(phis[m])^2)*Ptmp[,k0]/aggPtmp
}
}
}
}
H.phi = h1 - grad.phi%*%t(grad.phi)
H.phi
}
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