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Mathematical Modelling and Data Analysis

Department 8.4

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Title: A case study in model-based dynamic calibration of small strain gauge force transducers
Author(s): M. Kobusch and S. Eichstädt
Journal: Acta IMEKO
Year: 2017
Volume: 6
Issue: 1
Pages: 3--12
DOI: 10.21014/acta_imeko.v6i1.433
Keywords: dynamic modelling, parameter identification, sine force calibration, shock force calibration
Tags: 8.4,8.42,Dynamik
Abstract: Abstract: Investigations of the model-based dynamic calibration of a small strain gauge force transducer of high bandwidth revealed new challenges for parameter identification. This paper discusses a more generalized mechanical model of the calibration set-up employed taking account of the transducer’s connection to its mechanical environment at both ends. Based on new experimental sine and shock force data, the improved model is studied and its parameters are identified. It is shown that the proposed model is capable of linking the calibration results of both calibration methods to a much better degree. This paper is an extended version of the original contribution to the IMEKO 2015 conference in Prague, Czech Republic.

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