Scilab 5.3.3
- Scilab help
- Linear Algebra
- aff2ab
- balanc
- bdiag
- chfact
- chol
- chsolve
- classmarkov
- cmb_lin
- coff
- colcomp
- companion
- cond
- det
- eigenmarkov
- ereduc
- expm
- fstair
- fullrf
- fullrfk
- genmarkov
- givens
- glever
- gschur
- gspec
- hess
- householder
- im_inv
- inv
- kernel
- kroneck
- linsolve
- lsq
- lu
- lyap
- nlev
- orth
- pbig
- pencan
- penlaur
- pinv
- polar
- proj
- projspec
- psmall
- qr
- quaskro
- randpencil
- range
- rank
- rankqr
- rcond
- rowcomp
- rowshuff
- rref
- schur
- spaninter
- spanplus
- spantwo
- spec
- sqroot
- squeeze
- sva
- svd
- sylv
- trace
Scilab help >> Linear Algebra > classmarkov
classmarkov
recurrent and transient classes of Markov matrix
Calling Sequence
[perm,rec,tr,indsRec,indsT]=classmarkov(M)
Arguments
- M
real N x N Markov matrix. Sum of entries in each row should add to one.
- perm
integer permutation vector.
- rec, tr
integer vector, number (number of states in each recurrent classes, number of transient states).
- indsRec,indsT
integer vectors. (Indexes of recurrent and transient states).
Description
Returns a permutation vector perm such that
M(perm,perm) = [M11 0 0 0 0 0] [0 M22 0 0 0] [0 0 M33 0] [ ... ] [0 0 Mrr 0] [* * * Q]
Each Mii is a Markov matrix of dimension rec(i) i=1,..,r.
Q is sub-Markov matrix of dimension tr.
States 1 to sum(rec) are recurrent and states from r+1 to n
are transient.
One has perm=[indsRec,indsT] where indsRec is a vector of size sum(rec)
and indsT is a vector of size tr.
Examples
//P has two recurrent classes (with 2 and 1 states) 2 transient states P=genmarkov([2,1],2,'perm') [perm,rec,tr,indsRec,indsT]=classmarkov(P); P(perm,perm)
See Also
- genmarkov — generates random markov matrix with recurrent and transient classes
- eigenmarkov — normalized left and right Markov eigenvectors
| << chsolve | Linear Algebra | cmb_lin >> |