A Denoising Method of Micro-Turbine Acoustic Pressure Signal Based on CEEMDAN and Improved Variable Step-Size NLMS Algorithm

Abstract: The acoustic pressure signal generated by blades is one of the key indicators for condition monitoring and fault diagnosis in the field of turbines. Generally, the working conditions of the turbine are harsh, resulting in a large amount of interference and noise in the measured acoustic pressure signal. Therefore, denoising the acoustic pressure signal is the basis of the subsequent research. In this paper, a denoising method of micro-turbine acoustic pressure signal based on the Complete Ensemble Empirical Mo… Show more

“…However, each have their own limitations when applied to the processing of roadside acoustic signals. Various modal decomposition techniques [15,16] can perform adaptive signal decomposition based on local features, but they require multiple iterations and are prone to modal aliasing, resulting in the loss of diagnostic value of the signal itself. Various filters [17] can significantly reduce the background noise of the target signal and are highly adaptable, but their time-frequency domain trade-offs may lead to distortion in the acoustic signal.…”

Fault Diagnosis of Train Wheelset Bearing Roadside Acoustics Considering Sparse Operation with GA-RBF

“…However, each have their own limitations when applied to the processing of roadside acoustic signals. Various modal decomposition techniques [15,16] can perform adaptive signal decomposition based on local features, but they require multiple iterations and are prone to modal aliasing, resulting in the loss of diagnostic value of the signal itself. Various filters [17] can significantly reduce the background noise of the target signal and are highly adaptable, but their time-frequency domain trade-offs may lead to distortion in the acoustic signal.…”

Fault Diagnosis of Train Wheelset Bearing Roadside Acoustics Considering Sparse Operation with GA-RBF