English

Jammer Mitigation in Absorptive RIS-Assisted Uplink NOMA

Information Theory 2025-09-18 v2 Signal Processing math.IT

Abstract

Non-orthogonal multiple access (NOMA) is a promising technology for next-generation wireless communication systems due to its enhanced spectral efficiency. In this paper, we consider an uplink NOMA system operating together with a high-dimensional absorptive reconfigurable intelligent surface (A-RIS). We aim to minimize the total power transmitted by the users in order to meet signal-to-interference-plus-noise constraints at the base station in the presence of a jammer. We propose an iterative algorithm to solve the high-dimensional non-convex optimization problem using linear programming to find the transmit powers and a fractional programming algorithm based on the Dinkelbach algorithm with a sequential convex relaxation procedure to optimize the reflection coefficients. We show that our algorithm converges on large optimization problems, with a jammer comprising as many as 6464 antennas, and an A-RIS with 128128 elements. Our numerical results show that, compared with a standard RIS that reflects all impinging energy, the A-RIS can dramatically reduce the users' required transmit power and successfully mitigate interference from the jammer. The absorption capability of the A-RIS is in particular useful in cases when the number of jammer antennas is of the same order as the number of A-RIS elements.

Keywords

Cite

@article{arxiv.2408.16786,
  title  = {Jammer Mitigation in Absorptive RIS-Assisted Uplink NOMA},
  author = {Azadeh Tabeshnezhad and Yuqing Zhu and Artem Vilenskiy and Van Ly Nguyen and A. Lee Swindlehurst and Tommy Svensson},
  journal= {arXiv preprint arXiv:2408.16786},
  year   = {2025}
}
R2 v1 2026-06-28T18:28:03.887Z