I am using a Markov model with matrices programmed in R to solve a health economic problem.

I have a matrix that I would like to exponentiate 200 times. The values within the matrix change over time. For example the value on position x12 is in the first matrix 0.1 in the second 0.2 and in the third 0.3. I do not want to write down 200 matrices but rather one and exponentiate it by 200. For x12: could I use a vector with 200 values and the matrix would use that vector?

For constant values, it is no problem:

```
############### Imatinib Base-line Strategy ##########################
trans_matrix_dasa_no2nd <- matrix (,nrow=3,ncol=3)
trans_matrix_dasa_no2nd[1,] <- c(0.9,0.05,0.05)
trans_matrix_dasa_no2nd[2,] <- c(0,0.8,0.2)
trans_matrix_dasa_no2nd[3,] <- c(0,0,1)
cycle_patient_distribution_dasa_no2nd <- matrix (,nrow=2,ncol=3)
for (i in 1:2){cycle_patient_distribution_dasa_no2nd[i,] <-
initial_patient_distribtion%*%(trans_matrix_dasa_no2nd%^%i)}
cycle_patient_distribution_dasa_no2nd
[,1] [,2] [,3]
[1,] 900 50 50
[2,] 810 85 105
```

But if I use the vector, it is not working any more:

```
############### Imatinib Base-line Strategy ##########################
aaa <- c(0.9,0.5)
bbb <- c(0.05, 0.4)
ccc <- c(0.05, 0.1)
trans_matrix_dasa_no2nd <- matrix (,nrow=3,ncol=3)
trans_matrix_dasa_no2nd[1,] <- c(aaa,bbb,ccc)
Error in trans_matrix_dasa_no2nd[1, ] <- c(aaa, bbb, ccc) :
number of items to replace is not a multiple of replacement length
trans_matrix_dasa_no2nd[2,] <- c(0,0.8,0.2)
trans_matrix_dasa_no2nd[3,] <- c(0,0,1)
cycle_patient_distribution_dasa_no2nd <- matrix (,nrow=2,ncol=3)
for (i in 1:2){cycle_patient_distribution_dasa_no2nd[i,] <-
initial_patient_distribtion%*%(trans_matrix_dasa_no2nd%^%i)}
cycle_patient_distribution_dasa_no2nd
[,1] [,2] [,3]
[1,] NA NA NA
[2,] NA NA NA
```

if I introduce i into the matrix, the results are not correct:

```
############### Imatinib Base-line Strategy ##########################
aaa <- c(0.9,0.5)
bbb <- c(0.05, 0.4)
ccc <- c(0.05, 0.1)
trans_matrix_dasa_no2nd <- matrix (,nrow=3,ncol=3)
trans_matrix_dasa_no2nd[1,] <- c(aaa[i],bbb[i],ccc[i])
trans_matrix_dasa_no2nd[2,] <- c(0,0.8,0.2)
trans_matrix_dasa_no2nd[3,] <- c(0,0,1)
cycle_patient_distribution_dasa_no2nd <- matrix (,nrow=2,ncol=3)
for (i in 1:2){cycle_patient_distribution_dasa_no2nd[i,] <-
initial_patient_distribtion%*%(trans_matrix_dasa_no2nd%^%i)}
cycle_patient_distribution_dasa_no2nd
[,1] [,2] [,3]
[1,] 500 400 100
[2,] 250 520 230
```

How could I solve that problem? Many thanks!

`mtx^i`

is going to work with a varying mtx argument. – BondedDust Jul 31 '13 at 21:32`initial_patient_distribtion`

and cannot see why you think the current output is wrong. – BondedDust Aug 2 '13 at 18:23