M
Milena Martarelli
Researcher at Marche Polytechnic University
Publications - 119
Citations - 1740
Milena Martarelli is an academic researcher from Marche Polytechnic University. The author has contributed to research in topics: Laser Doppler vibrometer & Laser scanning vibrometry. The author has an hindex of 18, co-authored 99 publications receiving 1333 citations. Previous affiliations of Milena Martarelli include Università degli Studi eCampus & Imperial College London.
Papers
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Laser Doppler Vibrometry: Development of advanced solutions answering to technology's needs
TL;DR: The new trends on Laser Doppler Vibrometry (LDV) development are outlined with particular attention to the innovative solutions answering to the most recent technological requirements which are not met by the current systems as discussed by the authors.
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Acoustic beamforming for noise source localization - Reviews, methodology and applications
TL;DR: The main concepts of beamforming, starting from the very basics and progressing on to more advanced concepts and techniques are presented, in order to give the reader the possibility to identify concepts and references which might be useful for her/his work.
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Measuring area vibration mode shapes with a continuous-scan LDV
TL;DR: In this article, the out-of-plane vibration response mode shape of a vibrating surface was measured by using a scanning laser Doppler vibrometer (LDV).
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Continuous scanning laser Doppler vibrometry and speckle noise occurrence
Milena Martarelli,David J. Ewins +1 more
TL;DR: In this article, the influence of the speckle noise on the measured data quality is investigated, which is an unavoidable phenomenon occurring when a coherent light beam is scattered back from an optically rough surface.
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Cool products for building envelope – Part II: Experimental and numerical evaluation of thermal performances
Gian Marco Revel,Milena Martarelli,Marco Emiliani,Luca Celotti,Riccardo Nadalini,Antonio De Ferrari,Sacha Hermanns,Erwin Beckers +7 more
TL;DR: In this paper, an experimental and numerical approach for evaluating thermal performances of these materials on calibrated middle scale units and the energy impact on real buildings is proposed, which can help manufacturers to accurately compare new products against existing ones taking into account new potential applications (e.g. building facades).