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1	Preliminary result of the "origins of speech" project
	Vialet, Amélie; Grimaud-Hervé, Dominique; El Mouss, Marouane...
	In: UISPP 2021 - XIXth World Congress of the International Union of the Prehistoric and Protohistoric Sciences (UISPP'2021) ; https://hal.archives-ouvertes.fr/hal-03357948 ; UISPP 2021 - XIXth World Congress of the International Union of the Prehistoric and Protohistoric Sciences (UISPP'2021), Sep 2021, Meknes, Morocco ; https://uispp2020.sciencesconf.org/367310 (2021)
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2	Biomechanical tongue model prediction of fossil hominins: evaluation and uncertainties propagation
	El Mouss, Marouane; Belme, Anca; Payan, Yohan; Perrier, Pascal; Vialet, Amelie
	In: COUPLED 2021 - IX International Conference on Coupled Problems in Science and Engineering (Coupled 2021) ; https://hal.archives-ouvertes.fr/hal-03358151 ; COUPLED 2021 - IX International Conference on Coupled Problems in Science and Engineering (Coupled 2021), Jun 2021, Barcelone (on line), Spain (2021)
	Abstract: International audience ; ABSTRACT:The phylogenetic emergence of speech is a debated issue in human evolution studies. It was claimed for a long time that speech could emerge once the descent of the larynx occurred [1]. Two recent papers discarded this hypothesis showing that monkeys, considered to represent an early stage of human evolution, have “speech ready” vocal tracts [2] and produce distinctive vowel-like sounds [3]. Our long-term project consists of assessing the capacity of fossil hominins to articulate speech sounds, by building a Finite Element model of their vocal tract. Since the tongue and its surrounding soft tissues do not fossilize, our approach relies on transforming an existing model [4], which represents a modern Homo sapiens reference subject, to estimate the tongue morphology of a fossil hominin. Based on medical images of a fossil skull and the reference subject, a 3D displacement field is computed with an image registration process [5]. Then, the displacement field is applied to the reference model to shape it into a fossil tongue model. Our ultimate goal is to activate muscles in the fossil model and to assess the range of possible vocal tract shapes.In this specific study, we assessed the reliability of the methodology by testing it on anatomical data from living monkeys, with known ranges of vocal tract articulations and vocalization repertoires. First, registration accuracy was evaluated with multiple metrics, including the Dice similarity coefficient and Hausdorff distance. Then, the plausibility of the resulting transformations was assessed using the spatial Jacobian and deformation vector field images. Finally, the uncertainty resulting from the registration process was quantified using a non-intrusive adaptive stochastic collocation approach based on simplex elements [6].As a next step, we wish to analyze the validity of the predictions of lingual mobility by propagating and quantifying the parametric uncertainties in the biomechanical simulations.REFERENCES:[1] P. Lieberman, D. H. Klatt, W. H. Wilson, “Vocal tract limitations on the vowel repertoires of rhesus monkey and other nonhuman primates”. Science, 164: 1185–1187 (1969).[2] W. T. Fitch, B. de Boer, N. Mathur, A. A. Ghazanfar, “Monkey vocal tracts are speech-ready”. Sci. Adv,2: e1600723 (2016).[3] L.-J. Boë, F. Berthommier, T. Legou, G. Captier, C. Kemp, T. R. Sawallis, Y. Becker, A. Rey, J. Fagot, “Evidence of a vocalic proto-system in the baboon (Papio papio) suggests pre-hominin speech precursors”. PLoS ONE, 12: e0169321 (2017).[4] N. Hermant, P. Perrier & Y. Payan. “Human tongue biomechanical modeling”. In Biomechanics of Living Organs: Hyperelastic Constitutive Laws for Finite Element Modeling, Y. Payan and J. Ohayon editors, Chapter 19, pp. 395-411, Elsevier (2017).[5] A. Bijar, P.Y. Rohan, P. Perrier & Y. Payan “Atlas-Based Automatic Generation of Subject-Specific Finite Element Tongue Meshes”. Annals of Biomedical Engineering, 44 (1): 16-34 (2016).[6] J. Van Langenhove, D. Lucor, F. Alauzet, A. Belme. Goal-oriented error control of stochastic system approximations using metric-based anisotropic adaptations, J. Comp. Physics, 374:384-412 (2018).
	Keyword: [PHYS.MECA.BIOM]Physics [physics]/Mechanics [physics]/Biomechanics [physics.med-ph]; [SDV.IB]Life Sciences [q-bio]/Bioengineering; [SPI.MECA.BIOM]Engineering Sciences [physics]/Mechanics [physics.med-ph]/Biomechanics [physics.med-ph]
	URL: https://hal.archives-ouvertes.fr/hal-03358151
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3	In-vivo tongue stiffness measured by aspiration: Resting vs general anesthesia
	Kappert, K.,; Connesson, N.; Elahi, S.A.,...
	In: ISSN: 0021-9290 ; Journal of Biomechanics ; https://hal.archives-ouvertes.fr/hal-03039265 ; Journal of Biomechanics, Elsevier, 2020, 114, pp.110147. ⟨10.1016/j.jbiomech.2020.110147⟩ (2020)
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4	What anticipatory coarticulation in children tells us about speech motor control maturity
	Barbier, Guillaume; Perrier, Pascal; Payan, Yohan. - : Public Library of Science, 2020
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5	Speech biomechanics: What have we learned and modeled since Joseph Perkell’s tongue model In 1974?
	Perrier, Pascal; Payan, Yohan; Nazari, Mohammad A....
	In: Proceedings of the 171st Meeting of the Acoustical Society of America - Journal of the Acoustical Society of America (Supplement) ; Acoustics 2016 - 171st Meeting of The Acoustical Society of America ; https://hal.archives-ouvertes.fr/hal-01390169 ; Acoustics 2016 - 171st Meeting of The Acoustical Society of America, May 2016, Salt Lake City, United States. pp.2193 - 2193, ⟨10.1121/1.4950528⟩ (2016)
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6	Coupled Biomechanical Modeling of the Face, Jaw, Skull, Tongue, and Hyoid Bone
	Stavness, Ian; Nazari, Mohammad Ali; Cormac, Flynn...
	In: 3D Multiscale Physiological Human ; https://hal.archives-ouvertes.fr/hal-00926252 ; Magnenat-Thalmann, Nadia, Ratib, Osman, Choi, Hon Fai (Eds.). 3D Multiscale Physiological Human, Springer London, pp.253-274, 2014, 978-1-4471-6274-2. ⟨10.1007/978-1-4471-6275-9_11⟩ (2014)
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7	PRESLA: An original device to measure the mechanical interaction between tongue and teeth or palate during speech production ...
	Jeannin, Christophe; Perrier, Pascal; Payan, Yohan. - : arXiv, 2009
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8	A biomechanical model of the face including muscles for the prediction of deformations during speech production ...
	Groleau, Julie; Chabanas, Matthieu; Marecaux, Christophe. - : arXiv, 2008
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9	Tongue pressure recordings during speech using complete denture ...
	Jeannin, Christophe; Perrier, Pascal; Payan, Yohan. - : arXiv, 2008
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10	Use of a biomechanical tongue model to predict the impact of tongue surgery on speech production ...
	Buchaillard, Stéphanie; Brix, Muriel; Perrier, Pascal. - : arXiv, 2008
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11	Modeling the consequences of tongue surgery on tongue mobility ...
	Buchaillard, Stéphanie; Brix, Muriel; Perrier, Pascal. - : arXiv, 2007
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12	A 3D biomechanical vocal tract model to study speech production control: How to take into account the gravity? ...
	Buchaillard, Stéphanie; Perrier, Pascal; Payan, Yohan. - : arXiv, 2007
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13	Simulations of the consequences of tongue surgery on tongue mobility: implications for speech production in post-surgery conditions ...
	Buchaillard, Stéphanie; Brix, Muriel; Perrier, Pascal. - : arXiv, 2007
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14	Morphing genetic organs to speaker-specific anatomies
	Bérar, Maxime; Bailly, G.; Chabanas, Matthieu...
	In: Speech production (Hove, 2006), p. 341-362
	MPI für Psycholinguistik
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15	3D biomechanical tongue modeling to study speech production
	Gérard, Jean-Michel; Perrier, Pascal; Payan, Yohan
	In: Speech production (Hove, 2006), p. 85-102
	MPI für Psycholinguistik
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16	A non-invasive device to measure mechanical interaction between tongue, palate and teeth during speech production ...
	Jeannin, Christophe; Perrier, Pascal; Payan, Yohan. - : arXiv, 2006
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17	Synthesis of V-V sequences with a 2D biomechanical tongue model controlled by the equilibrium point hypothesis
	Payan, Yohan; Perrier, Pascal
	In: Institut de la communication parlée <Grenoble>. Cahiers de l'ICP. Rapport de recherche. - Grenoble 6 (1998-1999), 91-111
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18	Control of tongue movements in speech : the equilibrium point hypothesis perspective
	Perrier, Pascal; Lœvenbruck, Hélène; Payan, Yohan
	In: Institut de la communication parlée <Grenoble>. Cahiers de l'ICP. Rapport de recherche. - Grenoble 6 (1998-1999), 67-89
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19	A control model of human tongue movements in speech
	Sanguineti, Vittorio; Laboissière, Rafaël; Payan, Yohan
	In: Institut de la communication parlée <Grenoble>. Cahiers de l'ICP. Rapport de recherche. - Grenoble 6 (1998-1999), 113-124
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20	Synthesis of V-V sequences with a 2D biomechanical tongue model controlled by the Equilibrium Point Hypothesis
	Payan, Yohan; Perrier, Pascal
	In: Speech communication. - Amsterdam [u.a.] : Elsevier 22 (1997) 2-3, 185-206
	OLC Linguistik
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