Markov chains and random walks in data communication receivers
In many data communication receivers up/down counters are used as a critical part of the processing to determine whether the symbol timing and/or carrier phase tracking phase-locked loops are in-lock or out-of-lock, and it is necessary to calculate the various probabilities for true and false indica...
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| creator | Craig, J.W. |
| description | In many data communication receivers up/down counters are used as a critical part of the processing to determine whether the symbol timing and/or carrier phase tracking phase-locked loops are in-lock or out-of-lock, and it is necessary to calculate the various probabilities for true and false indications of in-lock or out-of-lock. A random walk along a line (which is viewed as a Markov chain) is an exact model of an up/down counter. The random walk has N states, and in this application one end is a partially reflecting barrier, and the other end is an absorbing barrier or sink. Previously published analyses have focused on finding the average time to make a declaration and its variance. The author concentrates on finding the probabilities of making a true or a false declaration within a certain number of symbol intervals or within a certain length of time. |
| doi_str_mv | 10.1109/WITS.1994.513889 |
| format | Conference Proceeding |
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A random walk along a line (which is viewed as a Markov chain) is an exact model of an up/down counter. The random walk has N states, and in this application one end is a partially reflecting barrier, and the other end is an absorbing barrier or sink. Previously published analyses have focused on finding the average time to make a declaration and its variance. 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A random walk along a line (which is viewed as a Markov chain) is an exact model of an up/down counter. The random walk has N states, and in this application one end is a partially reflecting barrier, and the other end is an absorbing barrier or sink. Previously published analyses have focused on finding the average time to make a declaration and its variance. The author concentrates on finding the probabilities of making a true or a false declaration within a certain number of symbol intervals or within a certain length of time.</abstract><pub>IEEE</pub><doi>10.1109/WITS.1994.513889</doi></addata></record> |
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| identifier | ISBN: 9780780327610 |
| ispartof | Proceedings of 1994 Workshop on Information Theory and Statistics, 1994, p.60 |
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| language | eng |
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| source | IEEE Electronic Library (IEL) Conference Proceedings |
| subjects | Data communication |
| title | Markov chains and random walks in data communication receivers |
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