Instantaneous frequency measurement method for the broadband non-stationary signal

An instantaneous frequency measurement method for broadband non-stationary signal is presented. The signal can be decomposed into progressive single-frequency signals by added qualification adaptive filters. According to their phase functions of analytical signals, the instantaneous frequencies are obtained. By integration of time-frequency relationship of all components, the instantaneous frequencies of broadband non-stationary signal are accurately measured. Simulation and error analysis prove that this method overcomes the difficulties in instantaneous frequency measuring of Fourier analysis, Wavelet transformation and Hilbert-Huang algorithm for the broadband non-stationary signal. In the whole analyzed frequency band it can achieve a higher frequency measurement resolution and has a measurement error of less than 0.2 MHz for the signals with an SNR of above 0 dB. For 8 μs long signal, this method has a better real-time processing capability, but an initial operational delay of 25.816 μs. Therefore, this method can meet the requirements of instantaneous frequency measurement for the broadband non-stationary signal.