Work place: City University, London
E-mail: s.mithileysh@gmail.com
Website:
Research Interests:
Biography
Mithileysh Sathiyanarayanan is an Indian-born young British Scientist & Entrepreneur based out of London. He closely works on sustainable development goals, that are “MAKE for WORLD” initiatives through his organization, MIT Square. Being a Founder & CEO, his vision is to build sustainable products and take it to the world. He holds a PostDoc and PhD from the City, University of London. His research was in collaboration with the Google Research. His pre-doctoral fellowship was from the University of Brighton, UK, which was in collaboration with the Nokia Bell Labs, Finland which won him “Young Scientist Award”. Also, he has won several research awards, entrepreneurship awards and has been invited as a research consultant at various industries for his research excellence. At an age of 19, he started his career as a social entrepreneur and now mentoring several institutions and budding engineers in India. Recently he was awarded International Achievers Award 2020 and CEO of the Year 2021 for his innovation and product development. His diligence and stark sight have achieved his startup the recognition as the one of the fastest growing startups in India. He is also the Founder & Chair of Raj Square Charity Foundation which focuses on youth empowerment and women empowerment. He is a self-made person who is building a platform for many to achieve success. He can be contacted at email: s.mithileysh@gmail.com
By Suprith P. G. Mohammed Riyaz Ahmed Mithileysh Sathiyanarayanan
DOI: https://doi.org/10.5815/ijcnis.2024.05.10, Pub. Date: 8 Oct. 2024
Multiple access technologies have grown hand in hand from the first generation to the 5th Generation (5G) with both performance and quality improvement. Non-Orthogonal Multiple Access (NOMA) is the recent multiple access technology adopted in the 5G communication technology. Capacity requirements of wireless networks have grown to a large extent with the penetration of ultra-high-definition video transmission, Internet of Things (IoT), and virtual reality applications taking ground in the recent future. This paper develops the Physical Layer Network Coding (PNC) for collision resolution in a NOMA environment with two users. Traditionally NOMA uses Successive Interference Cancellation (SIC) for collision resolution. While additionally a decoding algorithm is added along with SIC to improve the performance of the collision resolution. MATLAB-based simulation is developed on the NOMA environment with two users using Viterbi coding, Low-Density Parity Check (LDPC), and Turbo coding. Performance parameters of Bit Error Rate (BER) and throughput are compared for these three algorithms. It is observed that the Turbo coding performed better among these three algorithms both in the BER and throughput. The BER obtained from the SIC- Turbo is found to be performing well with an increase of about 14% from the ordinary SIC implementation. The performance of the collision resolution has increased by 13% to 14% when joint decoding techniques are used and thus increasing the throughput of the NOMA paradigm.
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