Performance Analysis of Linear Cooperative Multi-Hop Networks Subject to Composite Shadowing-Fading
We consider a cooperative multi-hop line network, where a group of nodes cooperatively transmits the same message to another group of nodes, and model the transmission from one group to another as a discrete-time quasi-stationary Markov process. We derive the transition probability matrix of the Mar...
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| Published in | IEEE transactions on wireless communications Vol. 12; no. 11; pp. 5850 - 5858 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
New York, NY
IEEE
01.11.2013
Institute of Electrical and Electronics Engineers The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1536-1276 1558-2248 |
| DOI | 10.1109/TWC.2013.092013.130309 |
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| Abstract | We consider a cooperative multi-hop line network, where a group of nodes cooperatively transmits the same message to another group of nodes, and model the transmission from one group to another as a discrete-time quasi-stationary Markov process. We derive the transition probability matrix of the Markov chain by considering the wireless channel exhibiting composite shadowing-fading. The shadowing is modeled as a log-normal random variable (RV) and the multipath fading as a Rayleigh RV, where the multiplicative model for the mixture distribution known as Suzuki (Rayleigh-lognormal) distribution has been considered. The sum distribution of the multiple Suzuki RVs is approximated by a single log-normal RV by using the moment generating function (MGF)-based technique. This MGF-based technique uses Gauss-Hermite integration to present the sum distribution in closed form. We quantify the signal-to-noise ratio (SNR) margin required to achieve a certain quality of service (QoS) under standard deviation of the shadowing. We also provide the optimal level of cooperation required for obtaining maximum coverage of a line network under a given QoS. Two topologies for linear network are considered and the performance of each topology under various system parameters is provided. The analytical results have been validated by matching with the simulation results. |
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| AbstractList | We consider a cooperative multi-hop line network, where a group of nodes cooperatively transmits the same message to another group of nodes, and model the transmission from one group to another as a discrete-time quasi-stationary Markov process. We derive the transition probability matrix of the Markov chain by considering the wireless channel exhibiting composite shadowing-fading. The shadowing is modeled as a log-normal random variable (RV) and the multipath fading as a Rayleigh RV, where the multiplicative model for the mixture distribution known as Suzuki (Rayleigh-lognormal) distribution has been considered. The sum distribution of the multiple Suzuki RVs is approximated by a single log-normal RV by using the moment generating function (MGF)-based technique. This MGF-based technique uses Gauss-Hermite integration to present the sum distribution in closed form. We quantify the signal-to-noise ratio (SNR) margin required to achieve a certain quality of service (QoS) under standard deviation of the shadowing. We also provide the optimal level of cooperation required for obtaining maximum coverage of a line network under a given QoS. Two topologies for linear network are considered and the performance of each topology under various system parameters is provided. The analytical results have been validated by matching with the simulation results. |
| Author | Hassan, Syed Ali Bacha, Mudasar |
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| Copyright | 2015 INIST-CNRS Copyright The Institute of Electrical and Electronics Engineers, Inc. (IEEE) Nov 2013 |
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| Keywords | Performance evaluation Markov process Cooperative communication Hermite interpolation Wireless telecommunication Lognormal distribution Composite material Markov chain Transition matrix composite shadowing-fading Transition probability Standard deviation Rayleigh distribution Stationary process Random variable Fading Generating function moment generating function Cooperative systems Multihop network Discrete time Suzuki distribution Telecommunication channels opportunistic large array Shadowing Service quality Signal to noise ratio |
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| References | ref13 van doorn (ref22) 2009; 15 ref23 ref15 abramowitz (ref18) 1972 mergen (ref5) 0 ref14 stuber (ref10) 2011 ref20 ref11 suzuki (ref12) 1977; com 25 ref2 ref1 ref17 ref16 ref19 meyer (ref21) 2001 ref7 hassan (ref8) 2013 ref9 ref4 ref3 ref6 |
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| Snippet | We consider a cooperative multi-hop line network, where a group of nodes cooperatively transmits the same message to another group of nodes, and model the... |
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| SubjectTerms | Applied sciences Approximation methods Channels composite shadowing-fading Cooperative communication Exact sciences and technology Fading Markov analysis Markov chain Markov processes moment generating function Network topology Operation, maintenance, reliability opportunistic large array Shadow mapping Signal to noise ratio Stochastic models Suzuki distribution Systems, networks and services of telecommunications Telecommunications Telecommunications and information theory Topology |
| Title | Performance Analysis of Linear Cooperative Multi-Hop Networks Subject to Composite Shadowing-Fading |
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