Frequency response functions are often utilized to characterize a system's dynamic response. For a wide range of engineering applications, it is desirable to determine frequency response functions for a system under stochastic excitation. In practice, the measurement data is contaminated by noise and some form of averaging is needed in order to obtain a consistent estimator. With Welch's method, the discrete Fourier transform is used and the data is segmented into smaller blocks so that averaging can be performed when estimating the spectrum. However, this segmentation introduces leakage effects. As a result, the estimated frequency response function suffers from both systematic (bias) and random errors due to leakage. In this paper the bia...
For the development of innovative materials, construction types or maintenance strategies, experimen...
The use of Fourier analysis as a step in building a model of a linear dynamic system involves end ef...
System response measurements appear in many areas of scientific and technical investigations. The sp...
Abstract. Frequency response functions are often utilized to characterize a system's dynamic re...
This paper analyses the errors on the frequency response function measurement of a transfer function...
Abstract—This paper investigates the measurement errors in-volved in estimating frequency response f...
An estimation bias error is known to exist when spectra are estimated from truncated responses to tr...
The estimation of frequency response function from experimental data containing noise forms the basi...
The use of block overlapping and time windowing in the estimation of the frequency response function...
Statistical errors in frequency response estimates depend on the form of the time window used to def...
The use of block overlapping and time windowing in the estimation of frequency response functions of...
A method for estimating frequency response functions by the Random Decrement technique is investigat...
Abstract A &had for estimating frequency response functions by the Random Decrement technique is...
An investigation is reported of the bias effect introduced by time delays when frequency response an...
In many industrial situations the vibro-acoustic response of an engineering system is sensitive to m...
For the development of innovative materials, construction types or maintenance strategies, experimen...
The use of Fourier analysis as a step in building a model of a linear dynamic system involves end ef...
System response measurements appear in many areas of scientific and technical investigations. The sp...
Abstract. Frequency response functions are often utilized to characterize a system's dynamic re...
This paper analyses the errors on the frequency response function measurement of a transfer function...
Abstract—This paper investigates the measurement errors in-volved in estimating frequency response f...
An estimation bias error is known to exist when spectra are estimated from truncated responses to tr...
The estimation of frequency response function from experimental data containing noise forms the basi...
The use of block overlapping and time windowing in the estimation of the frequency response function...
Statistical errors in frequency response estimates depend on the form of the time window used to def...
The use of block overlapping and time windowing in the estimation of frequency response functions of...
A method for estimating frequency response functions by the Random Decrement technique is investigat...
Abstract A &had for estimating frequency response functions by the Random Decrement technique is...
An investigation is reported of the bias effect introduced by time delays when frequency response an...
In many industrial situations the vibro-acoustic response of an engineering system is sensitive to m...
For the development of innovative materials, construction types or maintenance strategies, experimen...
The use of Fourier analysis as a step in building a model of a linear dynamic system involves end ef...
System response measurements appear in many areas of scientific and technical investigations. The sp...