Active-Passive Cascaded RIS-Aided Receiver Design for Jamming Nulling and Signal Enhancing

The utilization of a large-scale antenna array has led to substantial performance improvements in anti-jamming communications. However, due to the practical constraints of hardware cost and power consumption, deploying such a large-scale antenna array at the user side is impractical. Inspired by the...

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Bibliographic Details
Published in:IEEE transactions on wireless communications 2024-06, Vol.23 (6), p.5345-5362
Main Authors: Sun, Yifu, Zhu, Yonggang, An, Kang, Lin, Zhi, Li, Cheng, Ng, Derrick Wing Kwan, Wang, Jiangzhou
Format: Article
Language:English
Subjects:
Algorithms
Antenna arrays
Antennas
anti-jamming communications
Architecture
Beamforming
cascaded receiver architecture
Complexity
Computer architecture
Heuristic algorithms
Jamming
low-complexity robust beamforming design
Optimization
Power consumption
Power management
Receivers & amplifiers
Receiving antennas
Reconfigurable intelligent surface
Reconfigurable intelligent surfaces
Wireless communication
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Summary:The utilization of a large-scale antenna array has led to substantial performance improvements in anti-jamming communications. However, due to the practical constraints of hardware cost and power consumption, deploying such a large-scale antenna array at the user side is impractical. Inspired by the remarkable advantages of reconfigurable intelligent surfaces (RIS), we propose an active-passive cascaded RIS-aided receiver architecture that facilitates the cost- and energy-efficient deployment of a large-scale antenna array at the user side, while also providing additional degrees-of-freedom for effective beamforming design. Building upon this architectural framework and taking into account the practical imperfections in the angular channel state information (CSI), we formulate a worst-case achievable rate maximization problem for anti-jamming communications. To address the challenges posed by the intractable non-convex design problem, we present a low-complexity optimization framework that obtains semi-closed-form solutions. Specifically, we first develop a Pareto-dual scheme to handle the general power constraints in devising the optimal precoder for the base station. Subsequently, by introducing a novel anti-jamming criterion and employing the discretization method to transform the imperfect CSI of jammers into a robust form, we derive two jamming-nulling feasibility conditions and a unified unit-modulus zero-forcing scheme to determine the coefficients of the passive RIS. To strike a satisfactory balance between complexity and performance, we further design three computationally-efficient algorithms based on alternating majorization-minimization (AMM) and conventional/modified cyclic coordinate descent (C/M-CCD) methods to obtain the coefficients of the active RIS. Finally, through comprehensive numerical simulations, we validate the effectiveness of the proposed architecture and optimization framework, demonstrating their capacity to achieve exceptional performance in a cost-effective manner.
ISSN:1536-1276
1558-2248
DOI:10.1109/TWC.2023.3325813