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Digital
Library of the European Council for Modelling and Simulation |
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Title: |
SIR Distribution In D2D Environment With
Non-Stationary Mobility Of Users |
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Authors: |
Sergey Fedorov, Yurii Orlov, Andrey Samuylov, Dmitri Moltchanov, Yuliya Gaidamaka, Konstantin Samouylov, Sergey Shorgin |
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Published in:
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(2017).ECMS 2017 Proceedings
Edited by: Zita Zoltay
Paprika, Péter Horák, Kata Váradi, Péter Tamás Zwierczyk, Ágnes Vidovics-Dancs, János Péter Rádics European Council for Modeling and Simulation. doi:10.7148/2017 ISBN:
978-0-9932440-4-9/ ISBN:
978-0-9932440-5-6 (CD) 31st European Conference on Modelling and Simulation, Budapest, Hungary, May 23rd
– May 26th, 2017 |
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Citation
format: |
Sergey
Fedorov, Yurii Orlov, Andrey Samuylov, Dmitri Moltchanov, Yuliya Gaidamaka, Konstantin Samouylov, Sergey Shorgin (2017).
SIR Distribution In D2D Environment With Non-Stationary Mobility Of Users,
ECMS 2017 Proceedings Edited by: Zita Zoltay Paprika, Péter Horák, Kata Váradi, Péter Tamás Zwierczyk, Ágnes Vidovics-Dancs, János Péter Rádics European Council for Modeling and Simulation. doi: 10.7148/2017-0720 |
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DOI: |
https://doi.org/10.7148/2017-0720 |
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Abstract: |
Fifth
generation (5G) cellular systems are expected to rely on the set of advanced
networking techniques to further enhance the spatial frequency reuse.
Device-to-device (D2D) communications is one of them allowing users to
establish opportunitic direct connections. The use
of direct communications is primarily determined by the signal-to-interference
ratio (SIR). However, depending on the users movement, the SIR of an active
connection is expected to drastically fluctuate. In this work we develop an
analytical framework allowing to predict the channel quality between two
moving entities in a filed of moving interfering stations. Assuming users
movement driven by Fokker-Planck equation we obtain the empirical probability
density function of SIR. The proposed methodology can be used to solve
problems in the area of stochastic control of D2D communications in cellular
networks. |
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