Providing quality communications under adversarial electronic attacks, e.g., broadband jamming attacks, is a challenging task. Unlike state-of-the-art approaches which treat jamming signals as destructive interference, this paper presents a novel active anti-jamming (AAJ) scheme for a jammed channel to enhance the communication quality between a transmitter node (TN) and receiver node (RN), where the TN actively exploits the jamming signal as a carrier to send messages. Specifically, the TN is equipped with a programmable-gain amplifier, which is capable of re-modulating the jamming signals for jamming modulation. Considering four typical jamming types, we derive both the bit error rates (BER) and the corresponding optimal detection thresholds of the AAJ scheme. The asymptotic performances of the AAJ scheme are discussed under the high jamming-to-noise ratio (JNR) and sampling rate cases. Our analysis shows that there exists a BER floor for sufficiently large JNR. Simulation results indicate that the proposed AAJ scheme allows the TN to communicate with the RN reliably even under extremely strong and/or broadband jamming. Additionally, we investigate the channel capacity of the proposed AAJ scheme and show that the channel capacity of the AAJ scheme outperforms that of the direct transmission when the JNR is relatively high.
翻译:与将干扰信号视为破坏性干扰干扰的最先进方法不同,本文介绍了一种新型的主动反干扰(AAJ)办法,即卡塞通道,目的是提高发射器节点(TN)和接收器节点(RN)之间的通信质量,TN积极利用干扰信号作为发送信息的载体。具体地说,TN配备了一个可编程增益放大器,能够重新调制干扰调制干扰信号的干扰信号。考虑到四种典型的干扰类型,我们得出了AAAJ机制的比特错误率(BER)和相应的最佳检测门槛。在高干扰比比比比比和接收节点节点(RNN)和抽样率案例下讨论了AJ机制的无干扰性表现。我们的分析表明,BER底有足够大的JNRR。在拟议的A机制允许AA机制的比特位率和NJA机制的升级能力时,我们所拟议的A-RMR系统能够与A系统进行高度可靠的传输。