Quelques publications récentes
- Padois T., Doutres O., Sgard F., Berry A. (2016) « Acoustic source localization using a
polyhedral microphone array and an improved generalized cross-correlation technique », Volume 386, 6 January 2017, Pages 82–99. - Padois T., Doutres O., Sgard F., Berry A. (2016) « On the use of geometric and harmonic means with the generalized cross-correlation in the time domain to improve noise source maps », .
- Nélisse H., Sgard F. (2015). La recherche sur le bruit et les vibrations en santé et sécurité à l’IRSST. Canadian Acoustics 43(2).
- Laville F., Voix O., Doutres O., Le Cocq C., Bouthot O., Sgard F., Nélisse H., Marcotte P, Boutin J. (2015). Infrastructure commune en acoustique pour la recherche ÉTS-IRSST. Canadian Acoustics 43(2).
- Doutres O., Sgard F., Laville F., Voix J., Bouthot O., Nélisse H., Marcotte P., Boutin J. (2015). Is my material an (efficient) acoustical material?. Canadian Acoustics 43(2).
- Brummund M.K., Sgard F., Petit Y., Laville F.. (2015). An axisymmetric finite element model to study the earplug contribution to the bone conduction occlusion effect. Acta Acustica United with Acustica. 101(4):775-788.
- Boyer S., Doutres O., Sgard F., Laville F., Boutin J.. (2015). Low Frequency Finite Element Models of the Acoustical Behavior of Earmuffs. Journal of the Acoustical Society of America. 137(5): 2602-2613.
- Viallet G., Sgard F., Laville F.. (2015). Investigation of the variability in earplugs sound attenuation measurements using a finite element model. Applied Acoustics. 89: 333-344.
- Boyer S., Doutres O., Sgard F., Laville F., Boutin J.. (2014). Objective assessment of the sound paths through earmuff components. Applied Acoustics. 83: 76-85.
- Viallet G., Sgard F., Laville F.. (2014). A Finite Element Model to Predict the Sound Attenuation of Earplugs in an Acoustical Test Fixture. Journal of the Acoustical Society of America. 136(3): 1269-1280.
- Brummund M.K, Sgard F, Petit Y, Laville F. (2014). Three-dimensional finite element modeling of the human external ear: Simulation study of the bone conduction occlusion effect. Journal of the Acoustical Society of America. 135(3): 1433-1444.
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