Description

The vast majority of vibrations encountered in the real environment are random in nature. Such vibrations are intrinsically complicated and this volume describes the process that enables us to simplify the required analysis, along with the analysis of the signal in the frequency domain.
The power spectrum density is also defined, together with the requisite precautions to be taken in its calculations as well as the processes (windowing, overlapping) necessary to obtain improved results.
An additional complementary method – the analysis of statistical properties of the time signal – is also described. This enables the distribution law of the maxima of a random Gaussian signal to be determined and simplifies the calculation of fatigue damage by avoiding direct peak counting.

Mechanical Vibration and Shock Analysis, Random Vibration

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Hardback by Christian Lalanne

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The vast majority of vibrations encountered in the real environment are random in nature. Such vibrations are intrinsically complicated and... Read more

    Publisher: ISTE Ltd and John Wiley & Sons Inc
    Publication Date: 28/03/2014
    ISBN13: 9781848216464, 978-1848216464
    ISBN10: 1848216467

    Number of Pages: 656

    Non Fiction , Technology, Engineering & Agriculture , Education

    Description

    The vast majority of vibrations encountered in the real environment are random in nature. Such vibrations are intrinsically complicated and this volume describes the process that enables us to simplify the required analysis, along with the analysis of the signal in the frequency domain.
    The power spectrum density is also defined, together with the requisite precautions to be taken in its calculations as well as the processes (windowing, overlapping) necessary to obtain improved results.
    An additional complementary method – the analysis of statistical properties of the time signal – is also described. This enables the distribution law of the maxima of a random Gaussian signal to be determined and simplifies the calculation of fatigue damage by avoiding direct peak counting.

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