Vibrational resonance by using a real-time scale transformation method

Vibrational resonance (VR) shows great advantages in signal enhancement. Nonlinear frequency modulated (NLFM) signals widely exist in various fields, so it is of great significance to enhance a NLFM signal. However, for the complex NLFM signal, where its instantaneous frequency of the signal varies nonlinearly, the traditional VR method is no longer applicable. To solve this problem, a rescaled VR method by a real-time scale transformation method is proposed. Its basic principle is to use the real-time scale coefficient and auxiliary signal parameters to match a NLFM signal in a nonlinear system. The corresponding numerical simulation is carried out to process three kinds of typical NLFM signals. The results manifest the excellent performance of the proposed method for the signal enhancement of NLFM signals. The method can process NLFM signals with an arbitrary frequency variation. Consequently, it has certain theoretical and practical values in some fields.

Automated summary

Vibrational resonance (VR) has advantages in signal enhancement, but traditional VR methods are not applicable for complex nonlinear frequency modulated (NLFM) signals. To solve this problem, a rescaled VR method using real-time scale transformation is proposed, which shows excellent performance in enhancing NLFM signals with arbitrary frequency variations.