hsmmfit: fit a hidden semi-Markov model
In jaredo/mhsmm: Inference for Hidden Markov and Semi-Markov Models
Description
Usage
Arguments
Value
Author(s)
References
See Also
Examples
View source: R/hsmm_functions.R
Description
Estimates parameters of a HSMM using the EM algorithm.
Usage
1
2
Arguments
x
A hsmm.data object (see Details)
model
Starting parameters for the model (see hsmmspec)
mstep
Re-estimates the parameters of density function on each iteration
maxit
Maximum number of iterations
M
Maximum number of time spent in a state (truncates the waiting distribution)
lock.transition
If TRUE will not re-estimate the transition matrix
lock.d
If TRUE will not re-estimate the sojourn time density
graphical
If TRUE will plot the sojourn densities on each iteration
Value
start
A vector of the starting probabilities for each state
a
The transition matrix of the embedded Markov chain
emission
A list of the parameters of the emission distribution
waiting
A list of the parameters of the waiting distribution
Author(s)
Jared O'Connell jaredoconnell@gmail.com
References
Jared O'Connell, Soren Hojsgaard (2011). Hidden Semi Markov Models for
Multiple Observation Sequences: The mhsmm Package for R.,
Journal of Statistical Software, 39(4), 1-22., URL
http://www.jstatsoft.org/v39/i04/.
Guedon, Y. (2003), Estimating hidden semi-Markov chains from discrete sequences,
Journal of Computational and Graphical Statistics, Volume 12, Number 3, page 604-639 - 2003
See Also
hsmmspec,simulate.hsmmspec,predict.hsmm
Examples
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J <- 3
init <- c(0,0,1)
P <- matrix(c(0,.1,.4,.5,0,.6,.5,.9,0),nrow=J)
B <- list(mu=c(10,15,20),sigma=c(2,1,1.5))
d <- list(lambda=c(10,30,60),shift=c(10,100,30),type='poisson')
model <- hsmmspec(init,P,parms.emission=B,sojourn=d,dens.emission=dnorm.hsmm)
train <- simulate(model,r=rnorm.hsmm,nsim=100,seed=123456)
plot(train,xlim=c(0,400))
start.poisson <- hsmmspec(init=rep(1/J,J),
transition=matrix(c(0,.5,.5,.5,0,.5,.5,.5,0),nrow=J),
parms.emission=list(mu=c(4,12,23),
sigma=c(1,1,1)),
sojourn=list(lambda=c(9,25,40),shift=c(5,95,45),type='poisson'),
dens.emission=dnorm.hsmm)
M=500
# not run (takes some time)
# h.poisson <- hsmmfit(train,start.poisson,mstep=mstep.norm,M=M)
# plot(h.poisson$loglik,type='b',ylab='Log-likelihood',xlab='Iteration') ##has it converged?
# summary(h.poisson)
# predicted <- predict(h.poisson,train)
# table(train$s,predicted$s) ##classification matrix
# mean(predicted$s!=train$s) ##misclassification rate
d <- cbind(dunif(1:M,0,50),dunif(1:M,100,175),dunif(1:M,50,130))
start.np <- hsmmspec(init=rep(1/J,J),
transition=matrix(c(0,.5,.5,.5,0,.5,.5,.5,0),nrow=J),
parms.emission=list(mu=c(4,12,23),
sigma=c(1,1,1)),
sojourn=list(d=d,type='nonparametric'),
dens.emission=dnorm.hsmm)
# not run (takes some time)
# h.np <- hsmmfit(train,start.np,mstep=mstep.norm,M=M,graphical=TRUE)
# mean(predicted$s!=train$s) ##misclassification rate
#J <- 2
#init <- c(1, 0)
#P <- matrix(c(0, 1, 1, 0), nrow = J)
#B <- list(mu = list(c(2, 3), c(3, 4)), sigma = list(matrix(c(4, 2, 2, 3), ncol = 2), diag(2)))
#d <- list(shape = c(10, 25), scale = c(2, 2), type = "gamma")
#model <- hsmmspec(init, P, parms.emis = B, sojourn = d, dens.emis = dmvnorm.hsmm)
#train <- simulate(model, c(1000,100), seed = 123, rand.emis = rmvnorm.hsmm)
#yhat <- predict(model, train)
#mean(predict(model,train)$s==train$s)
jaredo/mhsmm documentation built on Dec. 6, 2019, 11:07 a.m.
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Description Usage Arguments Value Author(s) References See Also Examples
View source: R/hsmm_functions.R
Description
Estimates parameters of a HSMM using the EM algorithm.
Usage
1 2 |
Arguments
x |
A hsmm.data object (see Details) |
model |
Starting parameters for the model (see |
mstep |
Re-estimates the parameters of density function on each iteration |
maxit |
Maximum number of iterations |
M |
Maximum number of time spent in a state (truncates the waiting distribution) |
lock.transition |
If TRUE will not re-estimate the transition matrix |
lock.d |
If TRUE will not re-estimate the sojourn time density |
graphical |
If TRUE will plot the sojourn densities on each iteration |
Value
start |
A vector of the starting probabilities for each state |
a |
The transition matrix of the embedded Markov chain |
emission |
A list of the parameters of the emission distribution |
waiting |
A list of the parameters of the waiting distribution |
Author(s)
Jared O'Connell jaredoconnell@gmail.com
References
Jared O'Connell, Soren Hojsgaard (2011). Hidden Semi Markov Models for Multiple Observation Sequences: The mhsmm Package for R., Journal of Statistical Software, 39(4), 1-22., URL http://www.jstatsoft.org/v39/i04/.
Guedon, Y. (2003), Estimating hidden semi-Markov chains from discrete sequences, Journal of Computational and Graphical Statistics, Volume 12, Number 3, page 604-639 - 2003
See Also
hsmmspec,simulate.hsmmspec,predict.hsmm
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 | J <- 3
init <- c(0,0,1)
P <- matrix(c(0,.1,.4,.5,0,.6,.5,.9,0),nrow=J)
B <- list(mu=c(10,15,20),sigma=c(2,1,1.5))
d <- list(lambda=c(10,30,60),shift=c(10,100,30),type='poisson')
model <- hsmmspec(init,P,parms.emission=B,sojourn=d,dens.emission=dnorm.hsmm)
train <- simulate(model,r=rnorm.hsmm,nsim=100,seed=123456)
plot(train,xlim=c(0,400))
start.poisson <- hsmmspec(init=rep(1/J,J),
transition=matrix(c(0,.5,.5,.5,0,.5,.5,.5,0),nrow=J),
parms.emission=list(mu=c(4,12,23),
sigma=c(1,1,1)),
sojourn=list(lambda=c(9,25,40),shift=c(5,95,45),type='poisson'),
dens.emission=dnorm.hsmm)
M=500
# not run (takes some time)
# h.poisson <- hsmmfit(train,start.poisson,mstep=mstep.norm,M=M)
# plot(h.poisson$loglik,type='b',ylab='Log-likelihood',xlab='Iteration') ##has it converged?
# summary(h.poisson)
# predicted <- predict(h.poisson,train)
# table(train$s,predicted$s) ##classification matrix
# mean(predicted$s!=train$s) ##misclassification rate
d <- cbind(dunif(1:M,0,50),dunif(1:M,100,175),dunif(1:M,50,130))
start.np <- hsmmspec(init=rep(1/J,J),
transition=matrix(c(0,.5,.5,.5,0,.5,.5,.5,0),nrow=J),
parms.emission=list(mu=c(4,12,23),
sigma=c(1,1,1)),
sojourn=list(d=d,type='nonparametric'),
dens.emission=dnorm.hsmm)
# not run (takes some time)
# h.np <- hsmmfit(train,start.np,mstep=mstep.norm,M=M,graphical=TRUE)
# mean(predicted$s!=train$s) ##misclassification rate
#J <- 2
#init <- c(1, 0)
#P <- matrix(c(0, 1, 1, 0), nrow = J)
#B <- list(mu = list(c(2, 3), c(3, 4)), sigma = list(matrix(c(4, 2, 2, 3), ncol = 2), diag(2)))
#d <- list(shape = c(10, 25), scale = c(2, 2), type = "gamma")
#model <- hsmmspec(init, P, parms.emis = B, sojourn = d, dens.emis = dmvnorm.hsmm)
#train <- simulate(model, c(1000,100), seed = 123, rand.emis = rmvnorm.hsmm)
#yhat <- predict(model, train)
#mean(predict(model,train)$s==train$s)
|
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