Difference between revisions of "Transition with prohibitions"
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''transition with taboo states, for a Markov chain'' | ''transition with taboo states, for a Markov chain'' | ||
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[[Category:Markov chains]] | [[Category:Markov chains]] | ||
− | The set of trajectories of the [[Markov chain|Markov chain]] that never enters in a specified set of states in a given time interval. Let, for example, | + | The set of trajectories of the [[Markov chain|Markov chain]] that never enters in a specified set of states in a given time interval. Let, for example, $ \xi ( t) $ |
+ | be a Markov chain with discrete time and set of states $ S $, | ||
+ | while $ H $ | ||
+ | is the set of "taboo" states (the taboo set). Then the taboo probabilities $ {} _ {H} p _ {ij} ( t) $ | ||
+ | are | ||
− | + | $$ | |
+ | {} _ {H} p _ {ij} ( t) = {\mathsf P} \{ \xi ( k) \notin | ||
+ | H ( k = 1 \dots t- 1 ),\ | ||
+ | \xi ( t) = j \mid \xi ( 0) = i \} , | ||
+ | $$ | ||
− | + | $$ | |
+ | i, j \in S. | ||
+ | $$ | ||
− | The properties of the taboo probabilities | + | The properties of the taboo probabilities $ {} _ {H} p _ {ij} ( t) $ |
+ | are analogous to those of the ordinary [[Transition probabilities|transition probabilities]] $ p _ {ij} ( t) $, | ||
+ | since the families of matrices $ P( t) = \| p _ {ij} ( t) \| _ {i,j \in S } $ | ||
+ | and $ P _ {H} ( t) = \| {} _ {H} p _ {ij} ( t) \| _ {i,j \in S\setminus H } $, | ||
+ | $ t \geq 0 $, | ||
+ | form multiplication semi-groups; however, while $ \sum _ {j \in S } p _ {ij} ( t) = 1 $, | ||
+ | $ \sum _ {j \in S } {} _ {H} p _ {ij} ( t) \leq 1 $. | ||
+ | Different problems, e.g. the study of the distribution of the time to the first entrance of the Markov chain into a given set or limit theorems for branching processes (cf. [[Branching process|Branching process]]) under conditions of non-extinction, in fact amount to the investigation of various properties of taboo probabilities. | ||
====References==== | ====References==== | ||
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====Comments==== | ====Comments==== | ||
− | |||
====References==== | ====References==== |
Latest revision as of 08:26, 6 June 2020
transition with taboo states, for a Markov chain
2020 Mathematics Subject Classification: Primary: 60J10 Secondary: 60J35 [MSN][ZBL]
The set of trajectories of the Markov chain that never enters in a specified set of states in a given time interval. Let, for example, $ \xi ( t) $ be a Markov chain with discrete time and set of states $ S $, while $ H $ is the set of "taboo" states (the taboo set). Then the taboo probabilities $ {} _ {H} p _ {ij} ( t) $ are
$$ {} _ {H} p _ {ij} ( t) = {\mathsf P} \{ \xi ( k) \notin H ( k = 1 \dots t- 1 ),\ \xi ( t) = j \mid \xi ( 0) = i \} , $$
$$ i, j \in S. $$
The properties of the taboo probabilities $ {} _ {H} p _ {ij} ( t) $ are analogous to those of the ordinary transition probabilities $ p _ {ij} ( t) $, since the families of matrices $ P( t) = \| p _ {ij} ( t) \| _ {i,j \in S } $ and $ P _ {H} ( t) = \| {} _ {H} p _ {ij} ( t) \| _ {i,j \in S\setminus H } $, $ t \geq 0 $, form multiplication semi-groups; however, while $ \sum _ {j \in S } p _ {ij} ( t) = 1 $, $ \sum _ {j \in S } {} _ {H} p _ {ij} ( t) \leq 1 $. Different problems, e.g. the study of the distribution of the time to the first entrance of the Markov chain into a given set or limit theorems for branching processes (cf. Branching process) under conditions of non-extinction, in fact amount to the investigation of various properties of taboo probabilities.
References
[C] | K.L. Chung, "Markov chains with stationary transition probabilities" , Springer (1960) MR0116388 Zbl 0092.34304 |
Comments
References
[GS] | I.I. Gihman, A.V. Skorohod, "The theory of stochastic processes" , 1 , Springer (1975) (Translated from Russian) MR0375463 Zbl 0305.60027 |
Transition with prohibitions. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Transition_with_prohibitions&oldid=49015