Design and development of handover simulator model in 5G cellular network

Abdulkarem Basil Abdulkarem, Lukman Audah

Abstract


In the modern era of technology, the high speed internet is the most important part of human life. The globe is moving towards the development of innovative system based on high speed internet. The internet based gadgets like mobile, traffic control system and cloud based IoT application are currently using the 3G and 4G network with wireless technology. The current available network is reckoned to be slow in speed and not be up to snuff for data transmission regarding business applications. The objective of handover mechanism is to reassign the current session handle by internet gadget. The globe needs the next generation high mobility and throughput performance based internet model. This research paper explains the proposed method of design and development for handover based 5G cellular network. In comparison to the traditional method, we propose to control the handovers between base-stations using a concentric method. The simulator model has been developed on the basis of channel simulator using the open source simulator software. The simulator is applied over the range of the frequencies from 500 MHz to 150 GHz and radio frequency for the 700 MHz bandwidth. The performance of the simulation system is calculated on the basis of handover preparation and completion time. The performance of the proposed system is evaluated based on handover mechanism, the number of base station and number of users. The performance of handover propagation is compared with the results of traditional algorithm. From this experiment we achieve the 7.08 ms handover preparation time and 9.98 ms handover completion time. The author recommended the minimum handover completion time, perform the high speed for 5G cellular networks.

Keywords


handover; LTE; MANET; SDN; simulator;



DOI: http://doi.org/10.11591/ijece.v11i4.pp%25p
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International Journal of Electrical and Computer Engineering (IJECE)
p-ISSN 2088-8708, e-ISSN 2722-2578