Work place: Sethu Institute of Technology/Department of Electronics and Communication, Virudhunagar District, 626 115, India
E-mail: maryrajee@gmail.com
Website:
Research Interests:
Biography
Amalorpava Mary Rajee S completed her B.E Electronics and Communication Engineering from R.V.S College of Engineering and Technology, Madurai Kamaraj University , India in 1998 and M.E Communication Systems from Anna University, Tirunelveli in 2010, She is pursuing Ph.D in Wireless Networks in Anna University and submitted her Ph.D thesis. She is working as Assistant Professor in Sethu Institute of Technology. Her research interests are mainly in Heterogeneous networks and small cell deployment.
By Yamuna Devi M M Amalorpava Mary Rajee S Ahila A Indira N R
DOI: https://doi.org/10.5815/ijcnis.2022.04.07, Pub. Date: 8 Aug. 2022
Millimeter wave communication suffers from static blockages such as trees, buildings and so on. Reconfigurable Intelligent Surfaces (RISs) has been adapted to solve this blockage problem and enable the urban environment user to choose mmW enabled small cells as their source transmitter or to choose macro cells in case of non-line of sight exists. RIS is a promising network technology to improve the quality of service parameters such as spectral efficiency and energy efficiency by artificially reconfiguring the propagation environment of electromagnetic waves. An indoor user can be connected with mmW band if the line of sight (LOS) link exists. Otherwise, the system utilizes RIS transmission model to have reliable and low-latency communication. It reflects the capability of RISs to enable enhanced communications in challenging environments. An optimization problem is formulated to maximize the sum data rate of an indoor user by phase shift optimization at the RIS. The outage probability of the proposed scheme is analyzed under Rician fading channel. The proposed RIS enabled method targets to enhance the overall performance in terms of average spectral efficiency and achievable data rate in the presence of blockages and system imperfections. The data rate is increased by three fold times than that of the transmission without RIS. The utility of this framework is discussed for both indoor and outdoor environments.
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