Maximising Achievable Rate Using Intelligent Reflecting Surface in 6G Wireless Communication Systems

• Published in: Applied sciences Vol. 15; no. 15; p. 8732
• Main Authors: Eva, Afrin Jahan, Sahal, Md, Amin, Rabita, Khandaker, Muhammad R. A., Khan, Risala Tasin, Tariq, Faisal, Mahmud, ASM Ashraf
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.08.2025
• Subjects: Algorithms; Antennas (Electronics); Communications systems; Energy consumption; Energy efficiency; intelligent reflecting surface; location optimisation; Power amplifiers; Quality of service; Simulation methods; Telecommunication systems; wireless; Wireless communications; Wireless networks; United Kingdom
• ISSN: 2076-3417; 2076-3417
• DOI: 10.3390/app15158732

Intelligent reflecting surface (IRS) is a promising technique which aims to shift the paradigm of uncontrollable wireless environment to a controllable one by adding the function of reconfigurability using multiple passive reflecting elements. In this work, optimal beamforming design for maximising achievable rate with respect to variable location of the IRS is considered. In particular, a single-cell wireless system that employs an IRS to aid communication between the user and an access point (AP) equipped with multiple antennas is adopted. An optimisation problem is formulated which aims to maximise the achievable rate, subject to signal-to-interference-plus-noise ratio (SINR) constraint of each individual user as well as the total transmit power constraint at the AP. The problem is solved by jointly optimising the transmit beamforming using active aerial array at the AP and the reflection coefficients using passive phase shifting at the IRS. Since the original optimisation problem is strictly non-convex, the problem is solved optimally by solving a corresponding power minimisation problem. Rigorous simulations have been carried out and the results demonstrate that the IRS-enabled system outperforms benchmark systems and employs significantly fewer RF power amplifiers.