Large Deviations, Sharron-McMillan-Breiman Theorem for Super-Critical Telecommunication Networks
| Autor: | Sakyi-Yeboah, E., Andam, P. S., Asiedu, L., Doku-Amponsah, K. |
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| Rok vydání: | 2020 |
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| Druh dokumentu: | Working Paper |
| Popis: | In this article we obtain large deviation asymptotics for supercritical communication networks modelled as signal-interference-noise ratio networks. To do this, we define the empirical power measure and the empirical connectivity measure, and prove joint large deviation principles(LDPs) for the two empirical measures on two different scales i.e. $\lambda$ and $\lambda^2 a_{\lambda},$ where $\lambda$ is the intensity measure of the poisson point process (PPP) which defines the SINR random network.Using this joint LDPs we prove an asymptotic equipartition property for the stochastic telecommunication Networks modelled as the SINR networks. Further, we prove a Local large deviation principle(LLDP) for the SINR Network. From the LLDP we prove the a large deviation principle, and a classical MacMillian Theorem for the stochastic SNIR network processes. Note, for tupical empirical connectivity measure, $q\pi\otimes\pi,$ we can deduce from the LLDP a bound on the cardinality of the space of SINR networks to be approximately equal to $\displaystyle e^{\lambda^2 a_{\lambda}\|q\pi\otimes\pi\|H\big(q\pi\otimes\pi/\|q\pi\otimes\pi\|\big)},$ where the connectivity probability of the network, $Q^{z^\lambda} ,$ satisfies $ a_{\lambda}^{-1}Q^{z^\lambda} \to q.$ Observe, the LDP for the empirical measures of the stochastic SINR network were obtained on spaces of measures equipped with the $\tau-$ topology, and the LLDPs were obtained in the space of SINR network process without any topological restrictions. Comment: 12 pages |
| Databáze: | arXiv |
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