Aucouturier, J., Liuni, M. & Ponsot, E. (2017). Not so scary anymore : Screaming voices embedded in harmonic contexts are more positive and less arousing. In ESCOM.
Acte de conférence expertisé
Ponsot, E., Déjardin, H. & Roncière, E. (2016). Controlling Programme Loudness in Individualized Binaural Rendering of Multi-Channel Audio Contents. , Vol. 140: In Audio Engineering Society .
Mamassian, P. & Vemuri, B. (1993). ISOPHOTES ON A SMOOTH SURFACE RELATED TO SCENE GEOMETRY. , Vol. 2031: In Geometric Methods in Computer Vision II, 124-133. doi:10.1117/12.146619
Ouvrage
Gutkin, B. & Ahmed, S. (2012). Computational Neuroscience of Drug Addiction.
de Vignemont, F. (2021). Feeling the world as being here. In F. de Vignemont, A. Serino, H.Y. Wong, A. Farnè (Eds.), The world at our fingertips: A multidisciplinary investigation of peripersonal space, Oxford : Oxford University Press
Chapitre d'ouvrage
de Vignemont, F. (2021). What is the body schema? In Yochai Ataria, Shogo Tanaka, and Shaun Gallagher (Eds.), Body Schema and Body Image: New Directions. doi:10.1093/oso/9780198851721.003.0001
de Vignemont, F. (2020). Bodily Feelings: Presence, Agency, and Ownership. In Uriah Kriegel (Eds.), The Oxford Handbook of the Philosophy of Consciousness Oxford: Oxford University Press. doi:10.1093/oxfordhb/9780198749677.013.4
Chapitre d'ouvrage
de Vignemont, F. (2020). Un homme augmenté mais à quel prix ? In Bénédicte Boyer-Bévière, Isabelle Moine-Dupuis (Eds.), L’humain en transformation. Entre transhumanisme et humanité (pp. 23-30). doi:10.4000/cdst.2307
Alsmith, A. & Longo, M. (2019). Using VR technologies to investigate the flexibility of human self-conception. In E. Fischer and M. Curtis (Eds.), Methodological Advances in Experimental Philosophy (pp. 153-174). London: Bloomsbury
Chapitre d'ouvrage
de Vignemont, F. (2019). Against phenomenal parsimony: a plea for bodily feelings. In Goldman, Alvin McLaughlin, McLaughlin (Eds.), Metaphysics and cognitive science Oxford: Oxford University Press
Chapitre d'ouvrage
de Vignemont, F. (2019). The phenomenology of bodily ownership. In Guillot, Marie Garcia-Carpintero, Manuel (Eds.), The sense of mineness Oxford: Oxford University Press
Chapitre d'ouvrage
de Vignemont, F. & Sackur, J. (2018). La conscience. In Collins, Thérèse, Tallon-Baudry, Catherine, Andler, Daniel (Eds.), La cognitionGallimard
Chapitre d'ouvrage
de Vignemont, F. (2018). Schéma corporel et image corporelle. In De Boeck/Solal (Eds.), Manuel de psychomotricité
Chapitre d'ouvrage
de Vignemont, F. (2018). Was Descartes right after all? An affective background for bodily awareness. . In Tsakiris, Manos de Preester, Helena (Eds.), The Interoceptive Basis of the Mind: from homeostasis to awareness Oxford: Oxford University Press
Chapitre d'ouvrage
de Vignemont, F. (2018). Varieties of bodily feelings. In Kriegel, Uriah (Eds.), The Oxford handbook of consciousness Oxford: Oxford University Press
Chapitre d'ouvrage
de Vignemont, F. (2018). The first-person in pain. In Bain, D., Brady, M., Corns, J. (Eds.), Philosophy of Pain: Unpleasantness, Emotion, and DevianceRoutledge
Gutkin, B. (2015). Theta-neurons. In Springer Verlag (Eds.), Encyclopedia of Comptutational Neuroscience (pp. 1034-1042).
Chapitre d'ouvrage
Kuznetsov, A. & Gutkin, B. (2015). Dopaminergic cell Models. The Encyclopedia of Computational Neuroscience (pp. 2958-2965).
Chapitre d'ouvrage
Remme, M., Lengyel, M. & Gutkin, B. (2015). Trade-off between dendritic democracy and independence in neurons with intrinsic subthreshold membrane potential oscillatio. In Remme et al (eds) (Eds.), Dendritic ComputationSpringer
Chapitre d'ouvrage
Remme, M., Lengyel, M. & Gutkin, B. (2014). Phase Response Methods in Dendritic Dynamics. In Schultheiss et al (eds) (Eds.), Phase Response Cruves in NeuroscienceSpringer
Chapitre d'ouvrage
Caze, R., Humphries, M. & Gutkin, B. (2013). Dendrites enhance both single neuron and network computation. In Remme et al (eds) (Eds.), Dendritic ComputationSpringer
Chapitre d'ouvrage
Graupner, M. & Gutkin, B. (2012). Dynamical Approaches to understanding cholinergic control of nicotine action pathways in the dopaminergic reward circuits. Computational Neuroscience of Drug Addiction (Springer ed.).Ahmed and Gutkin (eds.)