Title :
A Novel Parameter-Tuned Stochastic Resonator for Binary PAM Signal Processing at Low SNR
Author :
Jin Liu ; Zan Li ; Lei Guan ; Lei Pan
Author_Institution :
Integrated Service Networks Lab., Xidian Univ., Xi´an, China
Abstract :
To improve the receiving performance of binary pulse amplitude modulated (BPAM) signal at low signal-to-noise ratio (SNR), a novel parameter-tuned stochastic resonator (PSR) is proposed. In this letter, we propose a new method for PSR which combines the conventional stochastic resonance (SR) approach based on classic adiabatic approximation theory with the non-conventional SR approach based on parameter tuned theory. Based on this method, we derive an analytical expression of the parameters of SR system. By tuning the parameters of SR system according to the proposed method, there exists a cooperative effect that the BPAM signal is enhanced by the background noise, and the PSR-based receiver is easy to be implemented. Simulation results demonstrate that the bit error ratio (BER) performance of the nonlinear PSR-based receiver is superior to the linear optimal receiver at low SNR.
Keywords :
approximation theory; cooperative communication; error statistics; interference suppression; pulse amplitude modulation; radio receivers; resonators; stochastic processes; BER; BPAM signal enhancement; PSR-based receiver; SNR; SR system; background noise; binary PAM signal processing; bit error ratio; classic adiabatic approximation theory; conventional stochastic resonance approach; cooperative effect; nonconventional SR approach; parameter tuned stochastic resonator; pulse amplitude modulation; signal to noise ratio; Bit error rate; Receivers; Signal to noise ratio; Stochastic resonance; White noise; PSR-based receiver; bit error ratio (BER); low signal-to-noise ratio (SNR); parameter-tuned stochastic resonator (PSR);
Journal_Title :
Communications Letters, IEEE
DOI :
10.1109/LCOMM.2014.011214.132465
