Orbital Angular Momentum Active Anti-Jamming in Radio Wireless Communications

TL;DR

This paper introduces a novel active anti-jamming scheme for wireless communications using orbital angular momentum (OAM), which detects and reflects jamming signals to improve spectrum efficiency under hostile broadband jamming.

Contribution

The paper proposes an innovative OAM-based active anti-jamming method that detects, recognizes, and utilizes jamming signals to enhance spectrum efficiency in wireless systems.

Findings

Significantly improves spectrum efficiency under jamming.

Effectively detects and utilizes jammed OAM modes.

Achieves high OAM mode utilization.

Abstract

Orbital angular momentum (OAM), providing the orthogonality among different OAM modes, has attracted much attention to significantly increase spectrum efficiencies (SEs) and enhance the anti-jamming results of wireless communications. However, the SE of wireless communications is severely degraded under co-frequency and co-mode hostile jamming. Focused on this issue, we propose a novel OAM active anti-jamming scheme to significantly enhance the anti-jamming results of wireless communications under broadband hostile jamming. Specifically, the OAM transmitter with energy detection senses jamming signals to identify which OAM modes are jammed and unjammed. Based on the recognition of OAM modes, useful signals are modulated by reflecting the received co-frequency and co-mode jamming signals with the assistance of a programmable gain amplifier (PGA) to the OAM receiver, thus utilizing both the OAM modes jammed by hostile attacks and the energy of jamming signals. Meanwhile, the unjammed OAM modes allocated with total transmit power are multiplexed for useful signal transmission. Numerical results demonstrate that our proposed OAM active anti-jamming scheme can achieve high OAM mode utilization and significantly increase the SEs.