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Aim : global decoding of hidden sequence using matrix. The step-by-step code is below:

# equilibrium probs
equil=function(P){
        e=eigen(t(P))$vectors[,1]
        e/sum(e)
}

# simulate hidden sequence
hssim=function(n,lambda)
{
        r=dim(lambda)[1]
        states=1:r
        s=vector("numeric",n)
        pi.lam=equil(lambda)
        s[1]=sample(states,1,FALSE,pi.lam)
        for (t in 2:n) {
                s[t]=sample(states,1,FALSE,prob=lambda[s[t-1],])
        }
        s
}

# simulate observed sequence
obssim=function(s,P)
{
n=length(s)
r=dim(P)[2]
q=dim(P)[1]
states=1:q
obs=vector("numeric",n)
for (t in 1:n) {
obs[t]=sample(states,1,FALSE,prob=P[,s[t]])
}
obs
}

lambda=rbind(c(0.999,0.0002,0.0003,0.0004,0.0001),c(0.001,0.9930,0.010,0.004,0.002),c(0.0004,0.0020,0.9900,0.0075,0.0001),c(0.0007,0.0030,0.0003,0.9940,0.0020),c(0.0010,0.0005,0.0040,0.0020,0.9925))

s=hssim(10000,lambda)

P=cbind(c(0.6,0.1,0.1,0.2),c(0.25,0.3,0.2,0.25),c(0.1,0.6,0.2,0.1),c(0.25,0.2,0.4,0.1),c(0.5,0.2,0.2,0.1))

obs=obssim(s,P)

# optional - converting to/from another alphabet...
letters=c("a","c","g","t")
numbers=1:4
convert=function(x,frm,to)
{
    to[match(x,frm)]
}
obslets=convert(obs,numbers,letters)

# estimate emmision probs from observed and hidden sequence
Pest=function(s,obs,r,q)
{
est=matrix(0,nrow=q,ncol=r)
for (i in 1:r) {
    est[,i]=table(obs[s==i])
    est[,i]=est[,i]/sum(est[,i])
    }
    est
}

phat=Pest(s,obs,5,4)

# estimate lambda from hidden sequence
lambdaest=function(s,r)
{
    n=length(s)
    est=matrix(0,ncol=r,nrow=r)
    for (t in 2:n) {
        est[s[t-1],s[t]]=est[s[t-1],s[t]]+1
        }
    for (i in 1:r) {
        est[i,]=est[i,]/sum(est[i,])
    }
    est
}

lamhat=lambdaest(s,5)
# global decoding algorithm
global=function(obs,lambda,P)
{
    r=dim(lambda)[1]
    q=dim(P)[1]
    n=length(obs)
    s=vector("numeric",n)
    f=matrix(0,nrow=r,ncol=n)
    # forwards
    f0=equil(lambda)
    f[,1]=P[obs[1],]*(f0%*%lambda)
    for (i in 2:n) {
        for (k in 1:r){
        f[k,i]=P[obs[i],k]*max(f[,i-1]*lambda[,k])
        }
        f[,i]=f[,i]/sum(f[,i])
    }   
    # backwards
    s[n]=which.max(f[,n])
    for (i in (n-1):1) {
        s[i]=which.max(lambda[,s[i+1]]*f[,i])
    }
    s
}

globest=global(obs,lambda,P)

I created function to solve viterbi decoding of a hidden sequence and showed error,and so i couldnt plot the graph identify the difference.Can anyone fix this for me.

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Reading suggestion: sscce.org –  Baumann Feb 12 at 18:52

1 Answer 1

up vote 0 down vote accepted

The problem is that function max does not work with complex data like your f matrix. I suggest taking the module before applying max. Example:

x = c(1 + 1i, 2)

# What you are doing
max(x) 
# >> Error in max(x) : invalid 'type' (complex) of argument

# Suggestion
max(Mod(x)) 
# >> 2
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