Welcome to Open Science
Contact Us
Home Books Journals Submission Open Science Join Us News
Quality of Service and Resource Utilization in 4G Long Term Evolution (LTE) Mobile Network
Current Issue
Volume 5, 2018
Issue 6 (December)
Pages: 70-76   |   Vol. 5, No. 6, December 2018   |   Follow on         
Paper in PDF Downloads: 26   Since Jan. 31, 2019 Views: 1084   Since Jan. 31, 2019
Authors
[1]
Ayodeji James Bamisaye, Department of Electrical and Electronics Engineering, the Federal Polytechnic, Ado-Ekiti, Nigeria.
[2]
Adeola Abiola Adebayo, Department of Electrical and Electronics Engineering, the Federal Polytechnic, Ado-Ekiti, Nigeria.
Abstract
Quality of service and resource utilization are important factors in 4G LTE mobile network. LTE is deployed in the 700 MHz band, due to its propagation characteristics and spectrum depth, it has strong in-building penetration and internet assessment from any compatible device. This paper describes parameters of design methods that will integrate the waived techniques, downlink and uplink of LTE, its architecture and signal processing. The features of 4G LTE wireless communication makes it ideal to solve the problem associated with network capacity, speed, congestion, QoS among others. LTE will also provide unprecedented global coverage and inherent global mobility, speed to run bandwidth, Intensive applications, interoperable with existing mainstream cellular technologies, low latency to support real-time applications especially in developing countries.
Keywords
Broadband, Bandwidth, QoS, LTE, Capacity
Reference
[1]
Patil C. S., Karhe R. R., Aher M. A.: Review on Generations in Mobile Cellular Technology International Journal of Emerging Technology and Advanced Engineering, Volume 2, Issue 10: 2012.
[2]
Sesia, S., Toufik, I., Bake, M. LTE - The UMTS Long Term Evolution: From Theory to Practice. Wiley Publication: 2011.
[3]
Bamisaye, Ayodeji James. and Kolawole, M. O. ‘Capacity and Quality Optimization in CDMA 3G Networks’, Journal of Telecommunications and Information Technology, (JTIT), 4/2010, 101-104: 2010.
[4]
Mohapatra, Sumant Ku, Biswa Ranjan Swain and Pravanjan Das. Comprehensive Survey of Possible Security Issues on 4G Networks, International Journal of Network Security & Its Applications 7.2, vol. 61: 2015.
[5]
Lavanya Dharuman and Senthilkumar Mathi, A Time-invariant Scheme for Handover Key Management Using Identity based Encryption in 4G Long Term Evolution Networks, In Proceedings of International Conference on Soft Computing Systems (ICSCS 2016), February 2016.
[6]
Choudhary, Anilmit and Randhir Bhandari, Analysis of UMTS (3G) Authentication and Key Agreement Protocol (AKA) for LTE (4G) Network, International Journal on Recent and Innovation Trends in Computing and Communication, ISSN: 2321-8169, vol. 3, issue 4, April 2015.
[7]
Vidya Krishnamoorthy and Senthilkumar Mathi, Security Enhancement of Handover Key Management Based on Media Access Control Address in 4G LTE Networks, In Proceedings of IEEE International Conference on Computational Intelligence and Computing Research (ICCIC-2015), pp. 868–872, December 2015.
[8]
Jinhyun Parkand Jae Hong Lee, “Semi-Distributed Spectrum Access to Enhance Throughput for Underlay Device-to- Device Communications”, IEEE transactions on communications, pp. 1-5, 2017.
[9]
Wang, Jin, et al., Issues Toward Networks Architecture Security for LTE and LTE-A Networks, International Journal of Security and Its Applications 8.4, pp. 17–24, 2014.
[10]
Myung, H. G., Goodman, D. J. 2008. Single Carrier FDMA: A New Air Interface for Long Term Evolution. Wiley Publication.
[11]
Wang, J., Zhang, Z., Ren, Y., Li, B., and Kim, J-U. Issues toward Networks Architecture Security for LTE and LTE-A Networks. International Journal of Security and Its Applications. Vol. 8, No. 4, pp. 17-24: 2014.
[12]
Payaswini, P., Manjaiah, D. H. Challenges and issues in 4G – Networks Mobility Management. International Journal of Computer Trends and Technology (IJCTT). Vol. 4 Iss. 5: 2013.
[13]
Yuy, H., Sunz, S., Yu, Q., He, C., Meng, W., Tan, X., Zhang, Z. Survey of Trunking Communications over LTE: Implementation Framework, Application Requirements, and Quality of Service. IEEE Wireless Communications and Networking Conference (WCNC): Services & Applications: (2013).
[14]
D. V. Zavyalova, M. L. Rolich, A. V. Andreev, Definition the optimal parameters of handover procedures in LTE networks, IEEE 17th International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices (EDM), pp. 110-113, 2016.
[15]
Zulhasnine, M., Huang, C., and Srinivasan, A. Efficient resource allocation for device-to-device communication underlaying LTE network. In Wireless and Mobile Computing, Networking and Communications (WiMob), IEEE 6th International Conference. pp. 368-375: 2010.
[16]
Alexei Davydov and Gregory Morozov, “Multi-Point Single-User MIMO Transmission Scheme for Communication Systems beyond LTE-Advanced”, 83rd Vehicular Technology Conference (VTC Spring), IEEE 2016.
[17]
Hao Wu, Jianxing Cai, Huahua Xiao, Yijian Chen, YuNgok Ruyue Li, Zhaohua Lu, “ High-Rank MIMO Precoding for Future LTEAdvanced Pro”, 83rd Vehicular Technology Conference (VTC Spring), IEEE 2016.
[18]
Binqiang Chen, Chenyang Yang, and Gang Wang, “High-Throughput Opportunistic Cooperative Device-to-Device Communications With Caching”, IEEE transactions on vehicular technology, vol. 66, No. 8, pp. 7527-7539, 2017.
Open Science Scholarly Journals
Open Science is a peer-reviewed platform, the journals of which cover a wide range of academic disciplines and serve the world's research and scholarly communities. Upon acceptance, Open Science Journals will be immediately and permanently free for everyone to read and download.
CONTACT US
Office Address:
228 Park Ave., S#45956, New York, NY 10003
Phone: +(001)(347)535 0661
E-mail:
LET'S GET IN TOUCH
Name
E-mail
Subject
Message
SEND MASSAGE
Copyright © 2013-, Open Science Publishers - All Rights Reserved