Efficient Index-Modulation-Based FHSS: A Unified Anti-Jamming Perspective
Yuxin Shi, Xinjin Lu, Kang An, Yusheng Li, Gan Zheng
Abstract
Due to the threat of various jamming attacks in wireless communications, the efficient and general anti-jamming schemes are required to guarantee communication the quality of wireless networks. To this end, this paper proposes the efficient index modulation based frequency hopping spread spectrum (IM-FHSS) scheme. Unlike the classical IM-FHSS which only considered the reactive jamming, the efficient IM-FHSS scheme extends the anti-jamming capacity to various jamming models. Specifically, we firstly derive the closed-form expressions of bit error rate (BER) performance of the IM-FHSS under three jamming models in an additional white gaussian noise (AWGN) channel and a Rayleigh fading channel, which enables the design of anti-jamming strategies. Then, the unified anti-jamming framework is provided for designing the efficient anti-jamming system. Based on the framework, we further provide the strategies of the efficient IM-FHSS for reactive jamming, constant and random jamming. Simulations show that the theoretical derivations match well with the simulated results, which validates the performance analysis. Moreover, the efficient IM-FHSS has demonstrated the superior anti-jamming performance for three typical jamming models, which is also energy-efficient and reliable for achieving targeted bit error rate (BER) performance.