@article{Xin_Wang_2020, title={Analysis and Research of 2DPSK Signal Reception Based on Stochastic Resonance System under Levy Noise}, volume={72}, url={https://asrjetsjournal.org/index.php/American_Scientific_Journal/article/view/6164}, abstractNote={<p>Under the background of Levy noise, a new method for coherent demodulation of 2DPSK signal based on the bistable stochastic resonance system model is proposed to solve the problem of poor quality of 2DPSK signal coherent demodulation. Comparing the output signals of the bistable stochastic resonance system model and the traditional model after passing through various components, the analysis shows that the frequency spectrum amplitude of the carrier signal after passing through the bistable stochastic resonance system model is approximately higher than that of the traditional model. 1.26 times. The error code of the output signal after demodulation by the new method is less than that of the traditional model after demodulation, and the signal to noise ratio is improved by 12.5dB. The simulation experiment results prove that the bistable stochastic resonance nonlinear coherent demodulation method effectively improves the transmission quality of 2DPSK signals.</p>}, number={1}, journal={American Scientific Research Journal for Engineering, Technology, and Sciences}, author={Xin, Yaxin and Wang , Fuzhong}, year={2020}, month={Sep.}, pages={1–11} }