R/PM_MCMCdailyHospAds.R
In JMacDonaldPhD/COVID19UK:
Defines functions
PM_MCMCCOVIDdailyHospAds
PM_MCMCCOVIDdailyHospAds.ADAPTIVE
PM_MCMCCOVIDdailyHospAds.ADAPTIVE <- function(dailyHospAdmissions, fixedParam, alpha0, alphaPrior, kernelParam, simulator, noSims,
noIts, burnIn, lambda0, delta, runParallel = TRUE){
start <- as.numeric(Sys.time())
# Adaptive Step
alphaCurr <- alpha0
lambda <- lambda0
# Likelihood Function
logPostCurr <- -Inf
while(logPostCurr == -Inf){
if(runParallel){
cl <- parallel::makePSOCKcluster(parallel::detectCores() - 1)
doParallel::registerDoParallel(cl)
sims <-
foreach(1:noSims) %dopar% {
simulator(param = c(fixedParam, alphaCurr), kernelParam)$dailyNoCases
}
} else{
sims <- replicate(noSims, simulator(param = c(fixedParam, alphaCurr), kernelParam)$dailyNoCases, simplify = F)
}
logPCurr <- sapply(X = sims, function(X) dailyHospLikelihood(X, dailyHospAdmissions,
alphaCurr))
logPCurr <- log(mean(exp(logPCurr)))
logPostCurr <- logPCurr + alphaPrior(alphaCurr)
}
draws <- matrix(nrow = noIts + 1, ncol = 2)
draws[1, ] <- c(alphaCurr, logPostCurr)
noAccept <- 0
print("Sampling Progress")
pb <- progress::progress_bar$new(total = noIts)
for(i in 1:noIts){
pb$tick()
# Proposal
u.delta <- runif(1, 0, 1)
if(u.delta > delta){
alphaProp <- RWMProposalUnit(alphaCurr, lambda)
} else{
alphaProp <- RWMProposalUnit(alphaCurr, lambda0)
}
if(runParallel){
cl <- parallel::makePSOCKcluster(parallel::detectCores() - 1)
doParallel::registerDoParallel(cl)
sims <-
foreach(1:noSims) %dopar% {
simulator(param = c(fixedParam, alphaProp), kernelParam)$dailyNoCases
}
} else{
sims <- replicate(noSims, simulator(param = c(fixedParam, alphaProp), kernelParam)$dailyNoCases, simplify = F)
}
logPProp <- sapply(X = sims, function(X) dailyHospLikelihood(X, dailyHospAdmissions,
alphaProp))
logPProp <- log(mean(exp(logPProp)))
logPostProp <- logPProp + alphaPrior(alphaProp)
acceptProb <- logPostProp - logPostCurr
#print(acceptProb)
u1 <- runif(1)
if(log(u1) < acceptProb){
noAccept <- noAccept + 1
logPostCurr <- logPostProp
alphaCurr <- alphaProp
if(u.delta > delta){
lambda <- lambda + 0.93*(lambda/sqrt(i))
}
} else{
if(u.delta > delta){
lambda <- lambda - 0.07*(lambda/sqrt((i)))
}
}
draws[i+1, ] <- c(alphaCurr, logPostCurr)
}
timeTaken <- as.numeric(Sys.time()) - start
# Calculate Effective Sample Sizes (and Per Second) and Acceptance Rates
ESS <- coda::effectiveSize(draws[, 1])
ESS.sec <- ESS/timeTaken
acceptRate <- noAccept/noIts
print(c("Accept Rate:", acceptRate))
return(list(draws = draws, lambda = lambda, noSims = noSims, ESS.sec = ESS.sec))
}
PM_MCMCCOVIDdailyHospAds <- function(dailyHospAdmissions, fixedParam, alpha0, alphaPrior, kernelParam, simulator, lambda, noSims, noIts,
burnIn, runParallel = TRUE){
start <- as.numeric(Sys.time())
# Adaptive Step
alphaCurr <- alpha0
# Likelihood Function
logPostCurr <- -Inf
while(logPostCurr == -Inf){
if(runParallel){
cl <- parallel::makePSOCKcluster(parallel::detectCores() - 1)
doParallel::registerDoParallel(cl)
sims <-
foreach(1:noSims) %dopar% {
simulator(param = c(fixedParam, alphaCurr), kernelParam)$dailyNoCases
}
} else{
sims <- replicate(noSims, simulator(param = c(fixedParam, alphaCurr), kernelParam)$dailyNoCases, simplify = F)
}
logPCurr <- sapply(X = sims, function(X) dailyHospLikelihood(X, dailyHospAdmissions,
alphaCurr))
logPCurr <- log(mean(exp(logPCurr)))
logPostCurr <- logPCurr + alphaPrior(alphaCurr)
}
draws <- matrix(nrow = noIts + 1, ncol = 2)
draws[1, ] <- c(alphaCurr, logPostCurr)
noAccept <- 0
print("Sampling Progress")
pb <- progress::progress_bar$new(total = noIts)
for(i in 1:noIts){
pb$tick()
# Proposal
alphaProp <- RWMProposalUnit(alphaCurr, lambda)
if(runParallel){
cl <- parallel::makePSOCKcluster(parallel::detectCores() - 1)
doParallel::registerDoParallel(cl)
sims <-
foreach(1:noSims) %dopar% {
simulator(param = c(fixedParam, alphaProp), kernelParam)$dailyNoCases
}
} else{
sims <- replicate(noSims, simulator(param = c(fixedParam, alphaProp), kernelParam)$dailyNoCases, simplify = F)
}
logPProp <- sapply(X = sims, function(X) dailyHospLikelihood(X, dailyHospAdmissions,
alphaProp))
logPProp <- log(mean(exp(logPProp)))
logPostProp <- logPProp + alphaPrior(alphaProp)
acceptProb <- logPostProp - logPostCurr
#print(acceptProb)
u1 <- runif(1)
if(log(u1) < acceptProb){
noAccept <- noAccept + 1
logPostCurr <- logPostProp
alphaCurr <- alphaProp
}
draws[i+1, ] <- c(alphaCurr, logPostCurr)
}
timeTaken <- as.numeric(Sys.time()) - start
# Calculate Effective Sample Sizes (and Per Second) and Acceptance Rates
ESS <- coda::effectiveSize(draws[, 1])
ESS.sec <- ESS/timeTaken
acceptRate <- noAccept/noIts
print(c("Accept Rate:", acceptRate))
return(draws)
}
JMacDonaldPhD/COVID19UK documentation built on Jan. 9, 2022, 5:29 p.m.
R Package Documentation
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Defines functions PM_MCMCCOVIDdailyHospAds PM_MCMCCOVIDdailyHospAds.ADAPTIVE
PM_MCMCCOVIDdailyHospAds.ADAPTIVE <- function(dailyHospAdmissions, fixedParam, alpha0, alphaPrior, kernelParam, simulator, noSims,
noIts, burnIn, lambda0, delta, runParallel = TRUE){
start <- as.numeric(Sys.time())
# Adaptive Step
alphaCurr <- alpha0
lambda <- lambda0
# Likelihood Function
logPostCurr <- -Inf
while(logPostCurr == -Inf){
if(runParallel){
cl <- parallel::makePSOCKcluster(parallel::detectCores() - 1)
doParallel::registerDoParallel(cl)
sims <-
foreach(1:noSims) %dopar% {
simulator(param = c(fixedParam, alphaCurr), kernelParam)$dailyNoCases
}
} else{
sims <- replicate(noSims, simulator(param = c(fixedParam, alphaCurr), kernelParam)$dailyNoCases, simplify = F)
}
logPCurr <- sapply(X = sims, function(X) dailyHospLikelihood(X, dailyHospAdmissions,
alphaCurr))
logPCurr <- log(mean(exp(logPCurr)))
logPostCurr <- logPCurr + alphaPrior(alphaCurr)
}
draws <- matrix(nrow = noIts + 1, ncol = 2)
draws[1, ] <- c(alphaCurr, logPostCurr)
noAccept <- 0
print("Sampling Progress")
pb <- progress::progress_bar$new(total = noIts)
for(i in 1:noIts){
pb$tick()
# Proposal
u.delta <- runif(1, 0, 1)
if(u.delta > delta){
alphaProp <- RWMProposalUnit(alphaCurr, lambda)
} else{
alphaProp <- RWMProposalUnit(alphaCurr, lambda0)
}
if(runParallel){
cl <- parallel::makePSOCKcluster(parallel::detectCores() - 1)
doParallel::registerDoParallel(cl)
sims <-
foreach(1:noSims) %dopar% {
simulator(param = c(fixedParam, alphaProp), kernelParam)$dailyNoCases
}
} else{
sims <- replicate(noSims, simulator(param = c(fixedParam, alphaProp), kernelParam)$dailyNoCases, simplify = F)
}
logPProp <- sapply(X = sims, function(X) dailyHospLikelihood(X, dailyHospAdmissions,
alphaProp))
logPProp <- log(mean(exp(logPProp)))
logPostProp <- logPProp + alphaPrior(alphaProp)
acceptProb <- logPostProp - logPostCurr
#print(acceptProb)
u1 <- runif(1)
if(log(u1) < acceptProb){
noAccept <- noAccept + 1
logPostCurr <- logPostProp
alphaCurr <- alphaProp
if(u.delta > delta){
lambda <- lambda + 0.93*(lambda/sqrt(i))
}
} else{
if(u.delta > delta){
lambda <- lambda - 0.07*(lambda/sqrt((i)))
}
}
draws[i+1, ] <- c(alphaCurr, logPostCurr)
}
timeTaken <- as.numeric(Sys.time()) - start
# Calculate Effective Sample Sizes (and Per Second) and Acceptance Rates
ESS <- coda::effectiveSize(draws[, 1])
ESS.sec <- ESS/timeTaken
acceptRate <- noAccept/noIts
print(c("Accept Rate:", acceptRate))
return(list(draws = draws, lambda = lambda, noSims = noSims, ESS.sec = ESS.sec))
}
PM_MCMCCOVIDdailyHospAds <- function(dailyHospAdmissions, fixedParam, alpha0, alphaPrior, kernelParam, simulator, lambda, noSims, noIts,
burnIn, runParallel = TRUE){
start <- as.numeric(Sys.time())
# Adaptive Step
alphaCurr <- alpha0
# Likelihood Function
logPostCurr <- -Inf
while(logPostCurr == -Inf){
if(runParallel){
cl <- parallel::makePSOCKcluster(parallel::detectCores() - 1)
doParallel::registerDoParallel(cl)
sims <-
foreach(1:noSims) %dopar% {
simulator(param = c(fixedParam, alphaCurr), kernelParam)$dailyNoCases
}
} else{
sims <- replicate(noSims, simulator(param = c(fixedParam, alphaCurr), kernelParam)$dailyNoCases, simplify = F)
}
logPCurr <- sapply(X = sims, function(X) dailyHospLikelihood(X, dailyHospAdmissions,
alphaCurr))
logPCurr <- log(mean(exp(logPCurr)))
logPostCurr <- logPCurr + alphaPrior(alphaCurr)
}
draws <- matrix(nrow = noIts + 1, ncol = 2)
draws[1, ] <- c(alphaCurr, logPostCurr)
noAccept <- 0
print("Sampling Progress")
pb <- progress::progress_bar$new(total = noIts)
for(i in 1:noIts){
pb$tick()
# Proposal
alphaProp <- RWMProposalUnit(alphaCurr, lambda)
if(runParallel){
cl <- parallel::makePSOCKcluster(parallel::detectCores() - 1)
doParallel::registerDoParallel(cl)
sims <-
foreach(1:noSims) %dopar% {
simulator(param = c(fixedParam, alphaProp), kernelParam)$dailyNoCases
}
} else{
sims <- replicate(noSims, simulator(param = c(fixedParam, alphaProp), kernelParam)$dailyNoCases, simplify = F)
}
logPProp <- sapply(X = sims, function(X) dailyHospLikelihood(X, dailyHospAdmissions,
alphaProp))
logPProp <- log(mean(exp(logPProp)))
logPostProp <- logPProp + alphaPrior(alphaProp)
acceptProb <- logPostProp - logPostCurr
#print(acceptProb)
u1 <- runif(1)
if(log(u1) < acceptProb){
noAccept <- noAccept + 1
logPostCurr <- logPostProp
alphaCurr <- alphaProp
}
draws[i+1, ] <- c(alphaCurr, logPostCurr)
}
timeTaken <- as.numeric(Sys.time()) - start
# Calculate Effective Sample Sizes (and Per Second) and Acceptance Rates
ESS <- coda::effectiveSize(draws[, 1])
ESS.sec <- ESS/timeTaken
acceptRate <- noAccept/noIts
print(c("Accept Rate:", acceptRate))
return(draws)
}
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