Interference Mitigation and Mobility Management for D2D Communication in LTE-A Networks

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Author(s)

Ravindra S 1,* Siddesh G K 2

1. Dept. of ECE, DSCE, K.S.Layout, Bengaluru, India

2. Dept. of ECE, JSSATE, Uttarahalli-Kengeri Rd, Bengaluru, India

* Corresponding author.

DOI: https://doi.org/10.5815/ijwmt.2019.02.03

Received: 11 Oct. 2018 / Revised: 28 Dec. 2018 / Accepted: 16 Feb. 2019 / Published: 8 Mar. 2019

Index Terms

Device to Device Communication, Interference management, SINR, Mobility management, Handover delay

Abstract

Interference and Mobility management are the main parameters which affect the signal capacity and reduce the transmission efficiency for D2D communication in LTE-A networks. When the users are in the same spectrum, due to the coexistence of D2D pairs and cellular users interference management becomes a critical issue. In this paper, we introduce an interference management algorithm that maximizes the performance of D2D communication in LTE-A networks for both uplink and downlink transmissions. Optimal routing selection techniques reduce the total path distance which helps to minimize the interference and improve the overall network capacity. Mobility management is also a challenging issue in IP-mobile networks. When two DUEs change their locations from one BS to the other, handover delay calculation becomes very important to maintain the communication without interruption. In this paper we show power control techniques which helps to reduce the effect of interference and also we addressed a method for the lower delay under complex mobility issues with uninterrupted D2D communication.

Cite This Paper

Ravindra S, Siddesh G K, "Interference Mitigation and Mobility Management for D2D Communication in LTE-A Networks", International Journal of Wireless and Microwave Technologies(IJWMT), Vol.9, No.2, pp. 20-31, 2019. DOI: 10.5815/ijwmt.2019.02.03

Reference

[1]Misfa Susanto, Helmy Fitriawan, Andri Abadi, Herlinawati, “On the Reduction of Interference Effect Using Power Control for Device-to-Device Communication Underlying Cellular Communication Network”, International Conference on Electrical Engineering and Computer Science (ICECOS) 2017, pp. 28–32.  2017.

[2]Devarani Devi Ningombam and Seokjoo Shin, “Radio Resource Allocation and Power Control Scheme to Mitigate Interference in Device-to-Device Communications Underlaying LTE-A Uplink Cellular Networks”, IEEE International Conference on Information and Communication Technology Convergence(ICTC), pp. 961–963, 2017.

[3]Zekun Zhang, Rose Qingyang Hu, Yi Qian, “D2D Communication Underlay in Uplink Cellular Networks with Distance Based Power Control ”, IEEE International Conference on Communication, pp. 1–5, 2016.

[4]Selma SBIT,Mohamed Bechir DADI and Belgacem CHIBANI, “SINR and Throughput enhancement in LTE-Advanced”, 16th international conference on Sciences and Techniques of Automatic control & computer engineering - STA'2015, pp.779-782, 2015.

[5]MD. Yeakub Hassan1, Faisal Hussain1, MD. Sakhawat Hossen1, “Interference Minimization in D2D Communication Underlying Cellular Networks”, IEEE Access, Vol. 5, pp.22471-22484, 2017.

[6]Nouri Omheni1 , Imen Bouabidi1, Amina Gharsallah1, Faouzi Zarai1, Mohammad S. Obaidat2, “Smart mobility management in 5G heterogeneous networks”, IET Networks Research Article, Vol. 7, pp. 119-128, 2018.

[7]Kim, I., Jung, Y.C., Kim, Y.T, “Low latency proactive handover scheme for  proxy MIPv6 with MIH”, 11th Asia-Pacific Symp. Network Operations and Management (APNOMS): Challenges for Next Generation Network Operations and Service Management, vol. 5297, pp. 344–353, 2008.

[8]Shouman Barua, Robin Braun, “Mobility Management of D2D Communication for the 5G Cellular Network System: A Study and Result”, 2017 17th International Symposium on Communications and Information Technologies (ISCIT), pp. 119-128, 2018.

[9]Md Mehedi Hasan , Sungoh Kwon, “Adaptive Mobility Load Balancing Algorithm for LTE Small-Cell Networks”, IEEE transactions on wireless communications, Vol. 17, No. 4, pp. 2205-2217, April 2018.

[10]A. Elakkiya, P.Selvaraj, “QoS Based IP Mobility Management Scheme for the Next Generation SDN-LTE Network”, Proceedings of the Second International Conference on Inventive Systems and Control (ICISC 2018), pp. 1355-1360, 2018.

[11]Xiaomeng Li, Yuan Ren, Hui Gao, and Tiejun Lv, “Opportunistic Interference Alignment Approach in Device-to-Device Communications Underlaying Cellular Networks”, 2016 24th European Signal Processing Conference (EUSIPCO), pp. 1838-1842, 2016.

[12]Selma SBIT,Mohamed Bechir DADI and Belgacem CHIBANI, “SINR and Throughput enhancement in LTE-Advanced”, 16th international conference on Sciences and Techniques of Automatic control & computer engineering - STA'2015, pp.779-782, 2015.

[13]Chungang Yang, Jiandong Li, Prabodini Semasinghe, “Distributed Interference and Energy-Aware Power Control for Ultra-Dense D2D Networks,” IEEE Trans. Wireless Commun., vol. 16, no. 2, pp. 1205-1217, 2017.

[14]Ravindra S, Dr. Siddesh G K, “Power Control in LTE-Advanced Networksfor Device to Device Communication”,International Journal of Advanced Research in Electrical, Electronics and Instrumentation, Engineering, ISSN (Print) : 2320 – 3765, ISSN (Online): 2278 – 8875,Volume 6, Issue 4, PP:2219-2223, April 2017

[15]T Gopi Sai Krishna, Ramarakula Madhu, “A Utility Function based Uplink Power Control Algorithm in LTE-Advanced Networks,” International Conference on Communication and Signal Processing, vol. 16, pp. 705-708, 2016.