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I have a matrix of the counts of transitions from one state to another and I would like to calculate the Maximum Likelihood Estimates, standard errors and standard deviations. The "markovchain" package has an example but the data is a sequence. My data is obtained from a balanced panel dataset of 155 companies so the example code they provide doesn't work for me.

This is the example I followed:

 data(rain)
 rain$rain[1:10]

 [1] "6+"  "1-5" "1-5" "1-5" "1-5" "1-5" "1-5" "6+"  "6+"  "6+"

 #obtaining the empirical transition matrix
 createSequenceMatrix(stringchar = rain$rain)
      0 1-5  6+ 
0   362 126  60 
1-5 136  90  68 
6+   50  79 124

#fitting the DTMC by MLE
alofiMcFitMle <- markovchainFit(data = rain$rain, method = "mle", name = "Alofi")
alofiMcFitMle
$estimate
Alofi
A  3 - dimensional discrete Markov Chain defined by the following states:
 0, 1-5, 6+
 The transition matrix  (by rows)  is defined as follows:
            0       1-5        6+
0   0.6605839 0.2299270 0.1094891
1-5 0.4625850 0.3061224 0.2312925
6+  0.1976285 0.3122530 0.4901186
$standardError
             0        1-5         6+
0   0.03471952 0.02048353 0.01413498
1-5 0.03966634 0.03226814 0.02804834
6+  0.02794888 0.03513120 0.04401395
$confidenceInterval
$confidenceInterval$confidenceLevel
[1] 0.95
$confidenceInterval$lowerEndpointMatrix
            0       1-5         6+
0   0.6034754 0.1962346 0.08623909
1-5 0.3973397 0.2530461 0.18515711
6+  0.1516566 0.2544673 0.41772208
$confidenceInterval$upperEndpointMatrix
            0       1-5        6+
0   0.7176925 0.2636194 0.1327390
1-5 0.5278304 0.3591988 0.2774279
6+  0.2436003 0.3700387 0.5625151
$logLikelihood
[1] -1040.419

Because I already have a matrix of count data I can't use the above code. I just want to take my 6x6 matrix of transition counts and determine the maximum likelihood estimators, standard errors (confidence interval) and standard deviation. Does anyone have an example I could follow?

  • I don't see a proper statistical request. You are offering a single set of observations, apparently the ending state of some process, and are asking for <something> done by ML methods that relates to an unobserved process of transitions. – 42- Feb 14 at 18:16
  • Yes. I would like to compute the MLEs for each transition of a 6x6 matrix, which is the count in each element of the matrix divided by the row sum. Once I have the MLEs, I would like to obtain the standard errors and standard deviations of the MLEs. – gm007 Feb 14 at 18:19
  • Still not clear what the MLE would be an estimate of. MLEs usually refer to a parameter of a statistical model. I don't see one yet capable of being calculated if you have not observed the full process.The best I could imagine being produced from a single 6x6 matrix are estimates of proportions and the se's might come from the multinomial distribution. However, there's no guarantee that these would be estimates of a transition matrix since we would not know the starting points and whether the process had achieved any sort of stability. – 42- Feb 14 at 18:45
  • I should have mentioned the process I followed. My apologies. I'm assuming a first order Markov chain. I have 6 states representing the credit ratings of the 155 firms throughout my sample period. I count how many firms begin at state i and count how many of them transitioned to state j to make the matrix. The estimate is the proportion of firms that transitioned from state i to state j and the matrix is the probability distribution of the system. – gm007 Feb 14 at 18:51
  • I do not see why the observed counts from a Markov process with an undetermined starting state should necessarily provide sufficient information for the estimation of the process transition matrix. You have not provided enough information in my opinion. – 42- Feb 15 at 1:41

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