Critical Assessment Of The Issues In The Application Of Hilbert Transform To Compute The Logarithmic Decrement

Abstract: The parametric OMI (Optimization in Multiple Intervals), the Yoshida-Magalas (YM) and a novel Hilbert-twin (H-twin) methods are advocated for computing the logarithmic decrement in the field of internal friction and mechanical spectroscopy of solids. It is shown that dispersion in experimental points results mainly from the selection of the computing methods, the number of oscillations, and noise. It is demonstrated that conventional Hilbert transform method suffers from high dispersion in internal friction va… Show more

“…The zero-point drift (non-harmonic distortion), is neglected here [10]. The additive white noise, ε w (t), is described by the signal-to-noise ratio S/N [8][9][10][11][12][13][14].…”

“…Dispersion in internal friction values around Q −1 = 0.014 is reported in Refs. [25,26] and assessed in [14]. The relationship between the internal friction, Q −1 , and the logarithmic decrement, δ, is well known [4,10,27].…”

“…This paper describes an endeavor to use the Hilbert transform [6,7] to compute the logarithmic decrement [2,[10][11][12][13], δ, from exponentially damped time-invariant harmonic oscillations embedded in the experimental noise, ε w (t), [10][11][12][13][14] and recorded in a low-frequency mechanical spectrometer (inverted torsion pendulum [1,2,4,5,[8][9][10][11][12][13]). In this paper, damped harmonic oscillations containing noise are referred to as the 'free-elastic decay'.…”

“…The H-twin method provides the 'true envelope', and thus shows excellent performance in the computation of the logarithmic decrement, δ. In the present study the δ values are computed according to the following methods: (1) the OMI (Optimization in Multiple Intervals) [8,9], (2) the YM (Yoshida-Magalas) [12][13][14] and (3) the Y (Yoshida) based on interpolated discrete Fourier transform, IpDFT [12][13][14]19], (4) the H-twin (Hilbert-twin), and (5) the HT (the Hilbert transform) [6,7]. The estimated values of δ are compared.…”

“…The estimated values of δ are compared. To ensure meaningful comparison of the results, all computations are performed with (1) the same experimental conditions, (2) the same parameters used in signal processing, such as the length of the analyzed signal, the number of oscillations N osc (the number of periods), the sampling frequency f s , (3) the signal-to-noise ratio, S/N, (4) the maximal strain amplitude, A 0 , and the same signal processing technique [8][9][10][11][12][13][14].…”

Hilbert-Twin – A Novel Hilbert Transform-Based Method To Compute Envelope Of Free Decaying Oscillations Embedded In Noise, And The Logarithmic Decrement In High-Resolution Mechanical Spectroscopy HRMS

“…The zero-point drift (non-harmonic distortion), is neglected here [10]. The additive white noise, ε w (t), is described by the signal-to-noise ratio S/N [8][9][10][11][12][13][14].…”

“…Dispersion in internal friction values around Q −1 = 0.014 is reported in Refs. [25,26] and assessed in [14]. The relationship between the internal friction, Q −1 , and the logarithmic decrement, δ, is well known [4,10,27].…”

“…This paper describes an endeavor to use the Hilbert transform [6,7] to compute the logarithmic decrement [2,[10][11][12][13], δ, from exponentially damped time-invariant harmonic oscillations embedded in the experimental noise, ε w (t), [10][11][12][13][14] and recorded in a low-frequency mechanical spectrometer (inverted torsion pendulum [1,2,4,5,[8][9][10][11][12][13]). In this paper, damped harmonic oscillations containing noise are referred to as the 'free-elastic decay'.…”

“…The H-twin method provides the 'true envelope', and thus shows excellent performance in the computation of the logarithmic decrement, δ. In the present study the δ values are computed according to the following methods: (1) the OMI (Optimization in Multiple Intervals) [8,9], (2) the YM (Yoshida-Magalas) [12][13][14] and (3) the Y (Yoshida) based on interpolated discrete Fourier transform, IpDFT [12][13][14]19], (4) the H-twin (Hilbert-twin), and (5) the HT (the Hilbert transform) [6,7]. The estimated values of δ are compared.…”

“…The estimated values of δ are compared. To ensure meaningful comparison of the results, all computations are performed with (1) the same experimental conditions, (2) the same parameters used in signal processing, such as the length of the analyzed signal, the number of oscillations N osc (the number of periods), the sampling frequency f s , (3) the signal-to-noise ratio, S/N, (4) the maximal strain amplitude, A 0 , and the same signal processing technique [8][9][10][11][12][13][14].…”

Hilbert-Twin – A Novel Hilbert Transform-Based Method To Compute Envelope Of Free Decaying Oscillations Embedded In Noise, And The Logarithmic Decrement In High-Resolution Mechanical Spectroscopy HRMS