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There are many scenarios that have been proposed for fifth generation (5G) networks. Some of them, if implemented, will bring fundamental changes at the architectural and node level. One example of such proposed technologies is device-to-device (D2D) communications which will change the nature of conventional cellular network design. D2D permits direct communication between two or more user devices without intervention of the base station (i.e. eNB). D2D can ensure network performance improvement over the traditional cellular network, because it can offload the mobile data traffic from the other devices. However, applying D2D features in a cellular network will bring about more complex interference problems, since D2D communication uses the same band as its underlying cellular communication network. The aim of this research is to investigate interference-related problems caused by D2D communications, affecting the underlying cellular networks, during downlink and uplink transmissions. The paper examines the use of power control methods to mitigate interference. A comparison is offered between fixed power level (FC) with or without power control, and adaptive power controls using two methods (AC1 and AC2), on a base station or on each of the D2D devices, based on the measured signal to interference plus noise ratio (SINR). The simulation results show that both power control methods contribute to improvement of network performance. AC1 and AC2 can improve SINR by about 1 dB and 0.5 dB compared to FC in a downlink transmission, and by 0.5 dB in an uplink transmission.
Rocznik
Tom
Strony
31--36
Opis fizyczny
Bibliogr. 16 poz., rys., tab.
Twórcy
autor
- Universitas Muhammadiyah Yogyakarta, Jl. Brawijaya, Bantul, Yogyakarta 55183, Indonesia
autor
- Universitas Muhammadiyah Yogyakarta, Jl. Brawijaya, Bantul, Yogyakarta 55183, Indonesia
autor
- Universitas Muhammadiyah Yogyakarta, Jl. Brawijaya, Bantul, Yogyakarta 55183, Indonesia
Bibliografia
- [1] A. Gupta and R. K. Jha, „A survey of 5G network: Architecture and emerging technologies", IEEE Access, vol. 3, pp. 1206-1232, 2015 (doi: 10.1109/ACCESS.2015.2461602).
- [2] R.-G. Cheng, N.-S. Chen, Y.-F. Chou, and Z. Becvar, „Offloading multiple mobile data contents through opportunistic device-to-device communications", Wirel. Personal Commun., vol. 84, no. 3, pp. 1963-1979, 2015 (doi: 10.1007/s11277-015-2492-1).
- [3] P. Mach, Z. Becvar, and T. Vanek, „In-band device-to-device communication in ofdma cellular networks: A survey and challenges", IEEE Commun. Surveys & Tutor., vol. 17, no. 4, pp. 1885-1922, 2015 (doi: 10.1109/COMST.2015.2447036).
- [4] M. N. Tehrani, M. Uysal, and H. Yanikomeroglu, „Device-to-device communication in 5G cellular networks: Challenges, solutions, and future directions", IEEE Commun. Mag., vol. 52, no. 5, pp. 86-92, 2014 (doi: 10.1109/MCOM.2014.6815897).
- [5] A. Asadi, Q. Wang, and V. Mancuso, „A survey on device-to-device communication in cellular networks", IEEE Commun. Surveys & Tutor., vol. 16, no. 4, pp. 1801-1819, 2014 (doi: 10.1109/COMST.2014.2319555).
- [6] L. Wei, R. Hu, Y. Qian, and G. Wu, „Enable device-to-device communications underlaying cellular networks: Challenges and research aspects", IEEE Commun. Mag., vol. 52, no. 6, pp. 90-96, 2014 (doi: 10.1109/MCOM.2014.6829950).
- [7] S. T. Shah, S. F. Hasan, B.-C. Seet, P. H. J. Chong, and M. Y. Chung, „Device-to-device communications: A contemporary survey", Wirel. Personal Commun., vol. 98, no. 1, pp. 1247-1284, 2018 (doi: 10.1007/s11277-017-4918-4).
- [8] R. Yin, C. Zhong, G. Yu, Z. Zhang, K. K.Wong, and X. Chen, „Joint spectrum and power allocation for D2D communications underlaying cellular networks", IEEE Trans. on Vehicular Technol., vol. 65, no. 4, pp. 2182-2195, 2016 (doi: 10.1109/TVT.2015.2424395).
- [9] S. Y. Shin and T. A. Nugraha, „Cooperative water Filling (CoopWF) algorithm for small cell networks", in Proc. Int. Conf. on ICT Convergence ICTC 2013, Jeju, South Korea, 2013, pp. 959-961 (doi: 10.1109/ICTC.2013.6675527).
- [10] P. Mach and Z. Becvar, „Combined shared/dedicated resource allocation for device-to-device communication", arXiv reprint arXiv:1711.01866, 2017.
- [11] N. Lee, X. Lin, J. G. Andrews, and R. W. Heath, „Power control for D2D underlaid cellular networks: Modeling, algorithms, and analysis", IEEE J. on Selec. Areas in Commun., vol. 33, no. 1, pp. 1-13, 2015 (doi: 10.1109/JSAC.2014.2369612).
- [12] Y. Jiang, Q. Liu, F. Zheng, X. Gao, and X. You, „Energy-efficient joint resource allocation and power control for D2D communications", IEEE Trans. on Vehicular Technol., vol. 65, no. 8, pp. 6119-6127, 2016 (doi: 10.1109/TVT.2015.2472995).
- [13] M. Susanto, H. Fitriawan, A. Abadik, and Herlinawati, „On the reduction of interference effect using power control for device-to-device communication underlying cellular communication network", in Proc. Int. Conf. on Elec. Engin. and Comp. Sci. ICECOS 2017, Palembang, Indonesia, 2017, pp. 28-32 (doi: 10.1109/ICECOS.2017.8167149).
- [14] A. Ramezani-Kebrya, M. Dong, B. Liang, G. Boudreau, and S. H. Seyedmehdi, „Joint power optimization for device-to-device communication in cellular networks with interference control", IEEE Trans. on Wirel. Commun., vol. 16, no. 8, pp. 5131-5146, 2017 (doi: 10.1109/TWC.2017.2706259).
- [15] S. K. Pal, T. A. Nugraha, S. Shams, and A. Rahman, „Resource allocation strategy using optimal power control for mitigating twotier interference in heterogeneous networks", in Proc. Wirel. Commun. and Networking Conf. Worksh. WCNCW 2014, Istanbul, Turkey, 2014, pp. 104-109 (doi: 10.1109/WCNCW.2014.69348769).
- [16] V. Tikhvinskiy, G. Bochechka, and A. Gryazev, „QoS requirements as factor of trust to 5G network", J. of Telecommun. and Inform. Technol., no. 1, pp. 3-8, 2016.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-047307ea-7ba3-4ea5-b582-2f1cccbbdbc2