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Errors involved in computing impulse response functions via frequency response functions

โœ Scribed by Henrik Herlufsen; Svend Gade

Book ID
103921770
Publisher
Elsevier Science
Year
1992
Tongue
English
Weight
672 KB
Volume
6
Category
Article
ISSN
0888-3270

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โœฆ Synopsis

This paper discusses the errors that are introduced when calculating the impulse response function from the frequency response function using DFT/FFT analysis technique.

The impulse response function is used in many applications of system analysis where a description of the system characteristics is preferred in the time domain rather than in the frequency domain. The case where the system is a single degree of freedom system, with viscous damping, is analysed. It is shown that the estimated impulse response function is not described by a single exponential decaying sinewave but rather as a sum of exponential decaying sinewaves. It is important to apply this slightly more complex model when the measurements are to be used for mathematical modelling of systems containing lightly damped resonances and where measurements free of influence of leakage are performed.

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โœ S.-H. Jang; J.-G. Ih ๐Ÿ“‚ Article ๐Ÿ“… 1997 ๐Ÿ› Elsevier Science ๐ŸŒ English โš– 199 KB

The two most popular frequency response function estimators, H 1 and H 2 give biased estimates when measured input and output signals are contaminated by uncorrelated noises. Recently, an improved frequency response function estimator H s was proposed for reducing the bias error due to measurement n