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Sir distribution in D2D environment with non-stationary mobility of users

Research output: Chapter in Book/Report/Conference proceedingConference contributionScientificpeer-review

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Sir distribution in D2D environment with non-stationary mobility of users. / Fedorov, Sergey; Orlov, Yurii; Samuylov, Andrey; Moltchanov, Dmitri; Gaidamaka, Yuliya; Samouylov, Konstantin; Shorgin, Sergey.

Proceedings - 31st European Conference on Modelling and Simulation, ECMS 2017. EUROPEAN COUNCIL FOR MODELLING AND SIMULATION, 2017. p. 720-725.

Research output: Chapter in Book/Report/Conference proceedingConference contributionScientificpeer-review

Harvard

Fedorov, S, Orlov, Y, Samuylov, A, Moltchanov, D, Gaidamaka, Y, Samouylov, K & Shorgin, S 2017, Sir distribution in D2D environment with non-stationary mobility of users. in Proceedings - 31st European Conference on Modelling and Simulation, ECMS 2017. EUROPEAN COUNCIL FOR MODELLING AND SIMULATION, pp. 720-725, EUROPEAN CONFERENCE ON MODELLING AND SIMULATION, 1/01/00. https://doi.org/10.7148/2017-0720

APA

Fedorov, S., Orlov, Y., Samuylov, A., Moltchanov, D., Gaidamaka, Y., Samouylov, K., & Shorgin, S. (2017). Sir distribution in D2D environment with non-stationary mobility of users. In Proceedings - 31st European Conference on Modelling and Simulation, ECMS 2017 (pp. 720-725). EUROPEAN COUNCIL FOR MODELLING AND SIMULATION. https://doi.org/10.7148/2017-0720

Vancouver

Fedorov S, Orlov Y, Samuylov A, Moltchanov D, Gaidamaka Y, Samouylov K et al. Sir distribution in D2D environment with non-stationary mobility of users. In Proceedings - 31st European Conference on Modelling and Simulation, ECMS 2017. EUROPEAN COUNCIL FOR MODELLING AND SIMULATION. 2017. p. 720-725 https://doi.org/10.7148/2017-0720

Author

Fedorov, Sergey ; Orlov, Yurii ; Samuylov, Andrey ; Moltchanov, Dmitri ; Gaidamaka, Yuliya ; Samouylov, Konstantin ; Shorgin, Sergey. / Sir distribution in D2D environment with non-stationary mobility of users. Proceedings - 31st European Conference on Modelling and Simulation, ECMS 2017. EUROPEAN COUNCIL FOR MODELLING AND SIMULATION, 2017. pp. 720-725

Bibtex - Download

@inproceedings{b86124f9fab44f74a7c05aa722f6f8da,
title = "Sir distribution in D2D environment with non-stationary mobility of users",
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-todevice (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 ative 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.",
keywords = "Cellular networks, D2D communications, Fokker-Planck equation, SIR distribution, Stochastic modeling",
author = "Sergey Fedorov and Yurii Orlov and Andrey Samuylov and Dmitri Moltchanov and Yuliya Gaidamaka and Konstantin Samouylov and Sergey Shorgin",
year = "2017",
doi = "10.7148/2017-0720",
language = "English",
pages = "720--725",
booktitle = "Proceedings - 31st European Conference on Modelling and Simulation, ECMS 2017",
publisher = "EUROPEAN COUNCIL FOR MODELLING AND SIMULATION",

}

RIS (suitable for import to EndNote) - Download

TY - GEN

T1 - Sir distribution in D2D environment with non-stationary mobility of users

AU - Fedorov, Sergey

AU - Orlov, Yurii

AU - Samuylov, Andrey

AU - Moltchanov, Dmitri

AU - Gaidamaka, Yuliya

AU - Samouylov, Konstantin

AU - Shorgin, Sergey

PY - 2017

Y1 - 2017

N2 - Fifth generation (5G) cellular systems are expected to rely on the set of advanced networking techniques to further enhance the spatial frequency reuse. Device-todevice (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 ative 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.

AB - Fifth generation (5G) cellular systems are expected to rely on the set of advanced networking techniques to further enhance the spatial frequency reuse. Device-todevice (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 ative 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.

KW - Cellular networks

KW - D2D communications

KW - Fokker-Planck equation

KW - SIR distribution

KW - Stochastic modeling

U2 - 10.7148/2017-0720

DO - 10.7148/2017-0720

M3 - Conference contribution

SP - 720

EP - 725

BT - Proceedings - 31st European Conference on Modelling and Simulation, ECMS 2017

PB - EUROPEAN COUNCIL FOR MODELLING AND SIMULATION

ER -