Browse > Article
http://dx.doi.org/10.14400/JDC.2020.18.10.225

Cooperative Priority-based Resource Allocation Scheduling Scheme for D2D Communications Underlaying 5G Cellular Networks  

Lee, Chong-Deuk (Division of Electronic Engineering, Jeonbuk National University)
Publication Information
Journal of Digital Convergence / v.18, no.10, 2020 , pp. 225-232 More about this Journal
Abstract
The underlaying communication scheme in 5G cellular network is a very promising resource sharing scheme, and it is an effective scheme for improving service performance of 5G and reducing communication load between a cellular link and a device to device (D2D) link. This paper proposes the algorithm to minimize the resource interference that occurs when performing 5G-based multi-class service on gNB(gNodeB) and the cooperative priority-based resource allocation scheduling scheme (CPRAS) to maximize 5G communication service according to the analyzed control conditions of interference. The proposed CPRAS optimizes communication resources for each device, and it optimizes resource allocation according to the service request required for 5G communication and the current state of the network. In addition, the proposed scheme provides a function to guarantee giga-class service by minimizing resource interference between a cellular link and a D2D link in gNB. The simulation results show that the proposed scheme is better system performance than the Pure cellular and Force cellular schemes. In particular, the higher the priority and the higher the cooperative relationship between UE(User Equipment), the proposed scheme shows the more effective control of the resource interference.
Keywords
Cellular link; D2D link; gNB; Resource interference; Cooperative priority;
Citations & Related Records
Times Cited By KSCI : 4  (Citation Analysis)
연도 인용수 순위
1 M.. Alsenwi, K. T. Kim, C. S. Hong. (2019). Radio Resource Allocation in 5G New Radio: A Neural Networks Approach. Journal of KIISE, 46(9), 961-967.   DOI
2 N. S. Vo, T. Q. Duong, M. Guizani, A. Kortun. (2018). 5G optimized caching and downlink resource sharing for smart cities. IEEE ACCESS, 6(1), 31457-31468.   DOI
3 O. Nouri. B. Imen. G. Amina, Z. Faouzi, S.O. Mohammad. (2018). Smart mobility management in 5G heterogeneous networks. IET, 7(3), 119-128.
4 P. Gandotra & R. Kumar. (2016). Device-to-Device Communication in Cellular. Journal of Network and Computer Applications, 71(1), 99-117.   DOI
5 H. R. Kang. (2018). A study on the UI/UX design of object control application using wireless communication. The Society of Digital Policy & Management, 16(1), 281-286.
6 S. Wen, X. Zhu, X. Zhang & D. Y. Hang. (2013). QoS-Aware Mode Selection and Resource Allocation Scheme for Device-to-Device (D2D) Communication in cellular networks. 2013 IEEE International Conference on Communications Workshops (ICC), 101-105, DOI: 10.1109/ICCW.2013.6649209
7 R. Vannithamby & S. Talwar. (2017). Distributed Resource Allocation in 5G Cellular Networks. Wiley Telecom, DOI: 10.1002/9781118979846
8 K. T. Sahrish & A. S. Munam. (2019). Resource Allocation in SDN-based 5G Cellular Networks. Peer-to_peer Networking and Applications, 12(1), 514-538.   DOI
9 U. N. Kar & D. K. Sanyal. (2018). An overview of device-to-device communication in cellular networks. ICT Express, 4(4), 203-208.   DOI
10 M. Noura M & R. Nordin. (2016). A survey on interference management for device-to-device (D2D) communication and its challenges in 5G networks. Journal of Networking and Computer Applications, 71(1), 130-150.   DOI
11 G. M. Mo & O. S. Shin. (2013). Resource Allocation Scheme based on Spectrum Sensing for Device-to-Device Communications Underlaying Cellular Networks. The Journal of Korean Institute of Communications and Information Sciences, 38(10), DOI: 10.7840/kics.2013.38A.10.898
12 S. Ali & A. Ahmad. (2017). Resource allocation, interference management, and mode selection in device-to-device communication: A survey. Transactions on Emerging Telecommunications Technologies, 28(7), 1-36.
13 M. N. Tehrani, M. Uysal & H. Yanikomeroglu. (2014). Device-to-device communication in 5G cellular networks: challenges, solutions, and future directions. IEEE Communication Magazines, 52(5), 86-92.
14 O. N. C. Yilmaz, et. al. (2014). Smart mobility management for D2D Communications in 5G Networks. IEEE WCNC, Istanbul, Turkey, Apr
15 X. Lin, J. G. andrews, A. Ghosh & R. Ratasuk. (2014). An Overview of 3GPP device-to-device proximity services. IEEE Communication Magazines, 52(4), 40-48.