Ornstein isomorphism theorem

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In probability and statistics a Markov renewal process is a random process that generalizes the notion of Markov jump processes. Other random processes like Markov chain, Poisson process, and renewal process can be derived as a special case of an MRP (Markov renewal process).

Definition

Consider a state space S. Consider a set of random variables (Xn,Tn), where Tn are the jump times and Xn are the associated states in the Markov chain (see Figure). Let the inter-arrival time, τn=TnTn1. Then the sequence (Xn, Tn) is called a Markov renewal process if

Pr(τn+1t,Xn+1=j|(X0,T0),(X1,T1),,(Xn=i,Tn))
=Pr(τn+1t,Xn+1=j|Xn=i)n1,t0,i,jS
An illustration of a Markov renewal process
An illustration of a Markov renewal process

Relation to other stochastic processes

  1. If we define a new stochastic process Yt:=Xn for t[Tn,Tn+1), then the process Yt is called a semi-Markov process. Note the main difference between an MRP and a semi-Markov process is that the former is defined as a two-tuple of states and times, whereas the latter is the actual random process that evolves over time. The entire process is not Markovian, i.e., memoryless, as happens in a CTMC. Instead the process is Markovian only at the specified jump instants. This is the rationale behind the name, Semi-Markov.[1][2][3]
  2. A semi-Markov process where all the holding times are exponentially distributed is called a continuous time Markov chain/process (CTMC). In other words, if the inter-arrival times are exponentially distributed and if the waiting time in a state and the next state reached are independent, we have a CTMC.
    Pr(τn+1t,Xn+1=j|(X0,T0),(X1,T1),,(Xn=i,Tn))=Pr(τn+1t,Xn+1=j|Xn=i)
    =Pr(Xn+1=j|Xn=i)(1eλit), for all n1,t0,i,jS
  3. The sequence Xn in the MRP is a discrete-time Markov chain. In other words, if the time variables are ignored in the MRP equation, we end up with a DTMC.
    Pr(Xn+1=j|X0,X1,,Xn=i)=Pr(Xn+1=j|Xn=i)n1,i,jS
  4. If the sequence of τs are independent and identically distributed, and if their distribution does not depend on the state Xn, then the process is a renewal process. So, if the exact states are ignored and we have a chain of iid times, then we have a renewal process.
    Pr(τn+1t|T0,T1,,Tn)=Pr(τn+1t)n1,t0

See also

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References and Further Reading

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