Two problems are proposed. The first one is the noise decontamination of chaotic carriers using a deterministic approach to reconstruct pseudo trajectories, the second is the design of communications schemes with chao...Two problems are proposed. The first one is the noise decontamination of chaotic carriers using a deterministic approach to reconstruct pseudo trajectories, the second is the design of communications schemes with chaotic carriers. After presenting our deterministic noise decontamination algorithm, conventional chaos shift keying (CSK) communication system is applied. The difference of Euclidean distance between noisy trajectory and decontaminated trajectory in phase space could be utilized to non-coherently detect the sent symbol simply and effectively. It is shown that this detection method can achieve the bit error rate performance comparable to other non-coherent systems.展开更多
An approach to calculating the approximate bit error rates for coherent DCSK in an AWGN channel is presented. By using logistic as the chaos generator and assuming ideal synchronization at the receiver, the BER of coh...An approach to calculating the approximate bit error rates for coherent DCSK in an AWGN channel is presented. By using logistic as the chaos generator and assuming ideal synchronization at the receiver, the BER of coherent DCSK in an AWGN channel is derived. The theoretical noise performance of coherent DCSK is again derived and is equal to that of coherent FSK. By computing and simulating, the theoretical BERs agree well with the simulated results.展开更多
文摘Two problems are proposed. The first one is the noise decontamination of chaotic carriers using a deterministic approach to reconstruct pseudo trajectories, the second is the design of communications schemes with chaotic carriers. After presenting our deterministic noise decontamination algorithm, conventional chaos shift keying (CSK) communication system is applied. The difference of Euclidean distance between noisy trajectory and decontaminated trajectory in phase space could be utilized to non-coherently detect the sent symbol simply and effectively. It is shown that this detection method can achieve the bit error rate performance comparable to other non-coherent systems.
文摘An approach to calculating the approximate bit error rates for coherent DCSK in an AWGN channel is presented. By using logistic as the chaos generator and assuming ideal synchronization at the receiver, the BER of coherent DCSK in an AWGN channel is derived. The theoretical noise performance of coherent DCSK is again derived and is equal to that of coherent FSK. By computing and simulating, the theoretical BERs agree well with the simulated results.