Research on Destination Network Selection Based on Trajectory Trend

Qifei Zhang; Hui Wang

doi:10.62051/ijcsit.v2n1.11

Authors

Qifei Zhang
Hui Wang

DOI:

https://doi.org/10.62051/ijcsit.v2n1.11

Keywords:

Network selection, Moving trajectory, Trajectory trend, Analytic hierarchy process

Abstract

The terminal will switch between different networks to maintain the network service required by the terminal device during the mobile process, and the unreasonable or inaccurate choice of the destination network will lead to the mobile device to switch between multiple networks for many times, resulting in the deterioration of the overall network service quality and the decline of user experience. Based on the trajectory trend, this paper comprehensively considers the terminal moving trajectory and the base station location, reasonably refers to network parameter factors, and combines the analytic hierarchy process to select the destination network, so as to improve the accuracy of network selection, reduce the number of switching times, reduce the efficiency of switching and improve the network utilization.

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References

MOHAMED, BDELRAHIM, ONIRETI, OLUWAKAYODE, IMRAN, MUHAMMAD ALI, et al. Control-Data Separation Architecture for Cellular Radio Access Networks: A Survey and Outlook[J].Communications surveys & tutorials,2016,18(1):446-465. DOI:10.1109/COMST.2015.2451514.

Metin Ozturk, Mandar Gogate, Oluwakayode Onireti, Ahsan Adeel, Amir Hussain, and Muhammad A. Imran. 2019. A novel deep learning driven, low-cost mobility prediction approach for 5G cellular networks: The case of the Control/Data Separation Architecture (CDSA). Neurocomput. 358, C (Sep 2019), 479–489.

C. Wang, Z. Zhao, Q. Sun and H. Zhang, "Deep Learning-Based Intelligent Dual Connectivity for Mobility Management in Dense Network," 2018 IEEE 88th Vehicular Technology Conference (VTC-Fall), Chicago, IL, USA, 2018, pp. 1-5, doi: 10.1109/VTCFall.2018.8690554.

Pan Such,LIANG Yu,LIUShengmei. A Multi-attribute Vertical Handoff Decision Algorithm Based on Motion Trend Quantification [J]. Journal of Electronics & Information Technology, 2016, 38(2):269-275. DOI:10.11999/JEIT150443.

Jiang Yi,Cheng Zhe,Zou Yang. Mobility Vertical Handoff Algorithm Based on Multi-business [J]. Computer Engineering,2017,43(1):168-171,177. DOI:10.3969/j.issn.1000-3428.2017.01.029.

Wu Yong. Research on Vertical Handoff Algorithm in Internet Of Vehicle Environment [D]. Heilongjiang: Harbin University of Science and Technology,2018.

Xu Kaiyue, Kang Guihua, Chen Jiao.A prior vertical handover decisionalgorithm in LTE-A heterogeneous networks[J]. Science Technology and Engineering, 2017, 17(34: 243—247).

Meng Lei,Tang Xin,Xu Yanyan. Vertical handoff algorithm based on mobile user location prediction [J]. Application Research of Computers ,2022,39(8):2438-2442. DOI:10.19734/j.issn.1001-3695.2022.01.0007.

CHEN Fatang,YANG Ling, JIA Junwen, et al. A cell pre-handover method based on entropy weight TOPSIS in 5G heterogeneous network [J] .Telecommunication Engineering,2022,62(3) :299-304.

XIE Xian-zhong,XIAO Bo-ren,MA Bin. Cost Function Weight-Variable and Speed-Adaptive Vertical Handoff Algorithm for a Vehicle Terminal in Heterogeneous Wireless Networks [J]. Acta Electronica Sinica,2011, 39(10): 2417-2421.

YANG Ming-ji,WU Ye,FAN Hua-feng. Vertical Handoff Algorithm for Heterogeneous Internet of Vehicles Based on Motion Trend Prediction [J]. Microelectronics and computers,2018,35(4):119-123,129.

Jiang Yi,Cheng Zhe,Zou Yang. Mobility Vertical Handoff Algorithm Based on Multi-business [J]. Computer Engineering,2017,43(1):168-171,177. DOI:10.3969/j.issn.1000-3428.2017.01.029.

Jin Yan-Liang, Deng Wei, FANG Chang-Li, et al. Switching time decision algorithm based on motion state [J]. Telecommunications Information,2015(5):12-16.

Wang Lianghong, Zheng Hua, Chen Youjia, et al,. Vertical Handover Algorithm Based on Acceleration Prediction within Heterogeneous Network [J]. Computer Systems & Applications, 2016, 25(6): 160-165. DOI:10.15888/j.cnki.csa.005213.

Wang Lianghong, Zheng Hua,Lin Hongguo, et al. Vertical Handover Algorithm Based on Speed Prediction within Heterogeneous Networks [J]. Computer Systems & Applications, 2017, 26(5):227-231. DOI: 10.15888/j.cnki.csa.005717.