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@ -11391,6 +11391,24 @@ Subject\_term: Careers, Politics, Policy},
file = {/home/danesabo/Zotero/storage/TPCXRCVV/Tange et al. - 2020 - A Systematic Survey of Industrial Internet of Thin.pdf}
}
@article{tanRobustControlMicrovibrations2005,
title = {Robust Control of Microvibrations with Experimental Verification},
author = {Tan, A C H and Meurers, T and Veres, S M and Aglietti, G and Rogers, E},
date = {2005-05-01},
journaltitle = {Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science},
shortjournal = {Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science},
volume = {219},
number = {5},
pages = {453--460},
issn = {0954-4062, 2041-2983},
doi = {10.1243/095440605X16929},
url = {https://journals.sagepub.com/doi/10.1243/095440605X16929},
urldate = {2024-10-22},
abstract = {The paper addresses the problem of actively attenuating a particular class of vibrations, known as microvibrations, which arise, for example, in panels used on satellites. A control scheme that incorporates feedback action is developed which operates at a set of dominant frequencies in a disturbance spectrum, where the control path model is estimated online. Relative to earlier published techniques, a new feature of the presented controller is the use of the inverse Hessian to improve adaptation speed. The control scheme also incorporates a frequency estimation technique to determine the relevant disturbance frequencies with higher precision than the standard fast Fourier transform (FFT). The control scheme is implemented on an experimental test-bed and the total achieved attenuation, as measured from the experiments, is 26 dB. The low computational demand of the control scheme allows for single chip controller implementation, a feature which is particularly attractive for potential applications areas, such as small satellites, where there are critical overall weight restrictions to be satisfied while delivering high quality overall performance.},
langid = {english},
file = {/home/danesabo/Zotero/storage/7E857NVF/Tan et al. - 2005 - Robust control of microvibrations with experimental verification.pdf}
}
@article{taoDigitalTwinIndustry2019,
title = {Digital {{Twin}} in {{Industry}}: {{State-of-the-Art}}},
shorttitle = {Digital {{Twin}} in {{Industry}}},