High-Power Cooperative Jamming with Nonlinear Known-Interference Cancellation

This article proposes a nonlinear known-interference cancellation (KIC) algorithm that allows a receiver to suppress the interference from a high-power cooperative jammer given that the transmitted interference is known in advance to the receiver. The proposed algorithm achieves this by estimating and compensating for the nonlinear power amplifier (PA) distortions, wireless channel effects, and frequency offsets that alter the transmitted interference as it propagates to the receiver. Measurements with commercial off-the-shelf radio platforms in both laboratory and outdoor conditions are presented. Their results demonstrate that the proposed method is able to cancel known interference (KI) with moderate residuals for a wide range of received signal-to-interference-plus-noise ratios (SINRs). This facilitates processing a signal of interest that is otherwise masked by the interference signal.