Multilevel cyclic shift index differential chaos shift keying system for high data rate transmission

This paper proposes a multilevel cyclic shift index modulation aided differential chaotic shift keying (MCSI-DCSK) system to improve data rate and energy efficiency. In the MCSI-DCSK system, the bit stream is divided into blocks with N(M+1)$N(M+1)$ bits which are further divided into N groups equally. In each group, the first M bits are mapped into an index of cyclic shift in the chaotic reference sequence, while the last bit is used to modulate the shifted chaotic reference sequence. Finally, the all modulated shifted chaotic reference sequences are superimposed to form the information-bearing signal. So the proposed system improves the data rate. The analytical bit-error-rate (BER) expressions of the MCSI-DCSK system are derived over additive white Gaussian noise and multipath Rayleigh fading channels and validated via simulations. In addition, the BER performance of the proposed system is compared with other non-coherent, chaotic communication systems. Simulation results indicate that the MCSI-DCSK system has better performance in data rate and BER. Here, a multilevel cyclic shift index modulation aided differential chaotic shift keying (MCSI-DCSK) system is proposed. The analytical bit-error-rate expressions of the MCSI-DCSK system over additive white Gaussian noise and multipath Rayleigh fading channels are also derived.image