G. Eklund, Position sense and the state of contraction: the effects of vibration, J Neurol Neurosurg Psychiatry, vol.35, pp.606-611, 1972.

G. M. Goodwin, . Mccloske, . Di, and P. B. Matthews, Proprioceptive Illusions Induced By Muscle Vibration-Contribution By Muscle-Spindles To Perception, Science, vol.175, 1972.

M. Bonnet, J. P. Roll, and M. L. Lacour, High frequency activation of myotatic pathway in man and illusion of movement, Electroencephalogr Clin Neurophysiol, vol.34, p.810, 1973.

D. Burke, K. E. Hagbarth, L. Lofstedt, and B. G. Wallin, Responses Of Human Muscle-Spindle Endings To Vibration Of Non-Contracting Muscles, J Physiol-Lond, vol.261, p.135840, 1976.

J. C. Gilhodes, J. P. Roll, and M. F. Tardy-gervet, Perceptual and motor effects of agonist-antagonist muscle vibration in man, Exp Brain Res, vol.61, p.3948946, 1986.

D. F. Collins and A. Prochazka, Movement illusions evoked by ensemble cutaneous input from the dorsum of the human hand, J Physiol, vol.496, p.8930850, 1996.

A. Kavounoudias, J. P. Roll, J. L. Anton, B. Nazarian, M. Roth et al., Proprio-tactile integration for kinesthetic perception: An fMRI study, Neuropsychologia, vol.46, p.18023825, 2008.
URL : https://hal.archives-ouvertes.fr/hal-01437968

F. Kaneko, T. Yasojima, and T. Kizuka, Kinesthetic illusory feeling induced by a finger movement movie effects on corticomotor excitability, Neuroscience, vol.149, pp.976-984, 2007.

T. Aoyama, F. Kaneko, T. Hayami, and E. Shibata, The effects of kinesthetic illusory sensation induced by a visual stimulus on the corticomotor excitability of the leg muscles, Neurosci Lett, vol.514, p.22402187, 2012.

M. Guerraz, S. Provost, R. Narison, A. Brugnon, S. Virolle et al., Integration of visual and proprioceptive afferents in kinesthesia, Neuroscience, vol.223, pp.258-268, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00926582

C. Blanchard, R. Roll, J. P. Roll, and A. Kavounoudias, Differential contributions of vision, touch and muscle proprioception to the coding of hand movements, PLoS One, vol.8, p.23626826, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01437964

J. P. Roll and J. P. Vedel, Kinaesthetic role of muscle afferents in man, studied by tendon vibration and microneurography, Exp Brain Res, vol.47, p.6214420, 1982.

J. P. Roll, J. P. Vedel, and E. Ribot, Alteration of proprioceptive messages induced by tendon vibration in man: a microneurographic study, Exp Brain Res, vol.76, p.2753103, 1989.

E. Naito, H. H. Ehrsson, S. Geyer, K. Zilles, and P. E. Roland, Illusory arm movements activate cortical motor areas: a positron emission tomography study, J Neurosci, vol.19, p.10407049, 1999.
DOI : 10.1523/jneurosci.19-14-06134.1999

URL : http://www.jneurosci.org/content/jneuro/19/14/6134.full.pdf

S. Radovanovic, A. Korotkov, M. Ljubisavljevic, E. Lyskov, J. Thunberg et al., Comparison of brain activity during different types of proprioceptive inputs: a positron emission tomography study, Exp Brain Res, vol.143, pp.276-285, 2002.

P. Romaiguere, J. L. Anton, M. Roth, L. Casini, and J. P. Roll, Motor and parietal cortical areas both underlie kinaesthesia, Brain Res Cogn Brain Res, vol.16, p.12589891, 2003.
URL : https://hal.archives-ouvertes.fr/hal-01521202

E. Naito, P. E. Roland, C. Grefkes, H. J. Choi, S. Eickhoff et al., Dominance of the right hemisphere and role of area 2 in human kinesthesia, J Neurophysiol, vol.93, p.15385595, 2005.

E. Naito, T. Nakashima, T. Kito, Y. Aramaki, T. Okada et al., Human limb-specific and nonlimb-specific brain representations during kinesthetic illusory movements of the upper and lower extremities, Eur J Neurosci, vol.25, p.17553017, 2007.

C. Duclos, R. Roll, A. Kavounoudias, and J. P. Roll, Cerebral correlates of the "Kohnstamm phenomenon": an fMRI study, Neuroimage, vol.34, p.17095251, 2007.
DOI : 10.1016/j.neuroimage.2006.06.050

URL : https://hal.archives-ouvertes.fr/hal-00095030

D. J. Goble, J. P. Coxon, A. Van-impe, M. Geurts, M. Doumas et al., Brain activity during ankle proprioceptive stimulation predicts balance performance in young and older adults, J Neurosci, vol.31, p.22072686, 2011.
DOI : 10.1523/jneurosci.4159-11.2011

URL : http://www.jneurosci.org/content/31/45/16344.full.pdf

L. Casini, P. Romaiguere, A. Ducorps, D. Schwartz, J. L. Anton et al., Cortical correlates of illusory hand movement perception in humans: a MEG study, Brain Res, vol.1121, p.17020751, 2006.
URL : https://hal.archives-ouvertes.fr/hal-01521200

T. Brandt, J. Dichgans, and E. Koenig, Perception of self-rotation (circular vection) induced by optokinetic stimuli, Pflugers Arch, vol.332, p.98, 1972.

S. Palmisano and B. Gillam, Stimulus eccentricity and spatial frequency interact to determine circular vection, Perception, vol.27, p.10341936, 1998.
DOI : 10.1068/p271067

URL : https://ro.uow.edu.au/cgi/viewcontent.cgi?article=3764&context=hbspapers

M. Lappe, F. Bremmer, and A. V. Van-den-berg, Perception of self-motion from visual flow, Trends Cogn Sci, vol.3, p.10461195, 1999.
DOI : 10.1016/s1364-6613(99)01364-9

J. Beer, C. Blakemore, F. H. Previc, and M. Liotti, Areas of the human brain activated by ambient visual motion, indicating three kinds of self-movement, Exp Brain Res, vol.143, pp.78-88, 2002.

A. Kleinschmidt, K. V. Thilo, C. Buchel, M. A. Gresty, A. M. Bronstein et al., Neural correlates of visual-motion perception as object-or self-motion, Neuroimage, vol.16, p.12202076, 2002.
DOI : 10.1006/nimg.2002.1181

URL : http://wexler.free.fr/library/files/kleinschmidt (2002) neural correlates of visual-motion perception as object- or self-motion.pdf

A. Deutschlander, S. Bense, T. Stephan, M. Schwaiger, M. Dieterich et al., Rollvection versus linearvection: Comparison of brain activations in PET, Hum Brain Mapp, vol.21, p.14755834, 2004.

G. Kovacs, M. Raabe, and M. W. Greenlee, Neural correlates of visually induced self-motion illusion in depth, Cereb Cortex, vol.18, p.18063566, 2008.

A. T. Smith and M. B. Wall, Sensitivity of human visual cortical areas to the stereoscopic depth of a moving stimulus, J Vis, vol.8, pp.11-12, 2008.

I. Indovina, V. Maffei, K. Pauwels, E. Macaluso, G. A. Orban et al., Simulated self-motion in a visual gravity field: sensitivity to vertical and horizontal heading in the human brain, Neuroimage, vol.71, pp.114-124, 2013.

C. Dohle, J. Pullen, A. Nakaten, J. Kust, C. Rietz et al., Mirror Therapy Promotes Recovery From Severe Hemiparesis: A Randomized Controlled Trial, Neurorehabil Neural Repair, vol.23, pp.209-217, 2008.
DOI : 10.1177/1545968308324786

V. S. Ramachandran and E. L. Altschuler, The use of visual feedback, in particular mirror visual feedback, in restoring brain function, Brain, vol.132, pp.1693-1710, 2009.

R. C. Oldfield, The assessment and analysis of handedness: the Edinburgh inventory, Neuropsychologia, vol.9, p.5146491, 1971.

S. B. Eickhoff, K. E. Stephan, H. Mohlberg, C. Grefkes, G. R. Fink et al., A new SPM toolbox for combining probabilistic cytoarchitectonic maps and functional imaging data, Neuroimage, vol.25, pp.1325-1335, 2005.

S. B. Eickhoff, S. Heim, K. Zilles, and K. Amunts, Testing anatomically specified hypotheses in functional imaging using cytoarchitectonic maps, Neuroimage, vol.32, p.16781166, 2006.

S. B. Eickhoff, T. Paus, S. Caspers, M. H. Grosbras, A. C. Evans et al., Assignment of functional activations to probabilistic cytoarchitectonic areas revisited, Neuroimage, vol.36, pp.511-521, 2007.

N. Tzourio-mazoyer, B. Landeau, D. Papathanassiou, F. Crivello, O. Etard et al., Automated anatomical labeling of activations in SPM using a macroscopic anatomical parcellation of the MNI MRI single-subject brain, Neuroimage, vol.15, pp.273-289, 2002.

M. Brett, J. L. Anton, R. Valabrègue, and J. B. Poline, Region of interest analysis using an SPM toolbox, 2002.

P. Romaiguere, S. Calvin, and J. P. Roll, Transcranial magnetic stimulation of the sensorimotor cortex alters kinaesthesia, Neuroreport, vol.16, p.15858408, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00095010

M. S. Christensen, J. Lundbye-jensen, S. S. Geertsen, T. H. Petersen, O. B. Paulson et al., Premotor cortex modulates somatosensory cortex during voluntary movements without proprioceptive feedback, Nat Neurosci, vol.10, pp.417-419, 2007.

M. Desmurget, K. T. Reilly, N. Richard, A. Szathmari, C. Mottolese et al., Movement intention after parietal cortex stimulation in humans, Science, vol.324, pp.811-813, 2009.

S. Hetu, M. Gregoire, A. Saimpont, M. P. Coll, F. Eugene et al., The neural network of motor imagery: an ALE meta-analysis, Neurosci Biobehav Rev, vol.37, p.23583615, 2013.

T. Hanakawa, I. Immisch, K. Toma, M. A. Dimyan, P. Van-gelderen et al., Functional properties of brain areas associated with motor execution and imagery, J Neurophysiol, vol.89, p.12574475, 2002.

T. Hanakawa, M. A. Dimyan, and M. Hallett, Motor planning, imagery, and execution in the distributed motor network: a time-course study with functional MRI, Cereb Cortex, vol.18, pp.2775-2788, 2008.

S. Cochin, C. Barthelemy, B. Lejeune, S. Roux, and J. Martineau, Perception of motion and qEEG activity in human adults, Electroencephalogr Clin Neurophysiol, vol.107, p.9872446, 1998.

R. Hari, N. Forss, S. Avikainen, E. Kirveskari, S. Salenius et al., Activation of human primary motor cortex during action observation: a neuromagnetic study, Proc Natl Acad Sci U A, vol.95, pp.15061-15065, 1998.

, Temporal dynamics of cortical representation for action, Visually Induced Kinesthetic Perception PLOS ONE, vol.97, pp.913-918, 2000.

V. Raos, M. N. Evangeliou, and H. E. Savaki, Observation of action: grasping with the mind's hand, Neuroimage, vol.23, p.15325366, 2004.

V. Raos, M. N. Evangeliou, and H. E. Savaki, Mental simulation of action in the service of action perception, J Neurosci, vol.27, pp.12675-12683, 2007.

G. Caetano, V. Jousmaki, and R. Hari, Actor's and observer's primary motor cortices stabilize similarly after seen or heard motor actions, Proc Natl Acad Sci U A, vol.104, pp.9058-9062, 2007.
DOI : 10.1073/pnas.0702453104

URL : http://www.pnas.org/content/104/21/9058.full.pdf

J. Dushanova and J. Donoghue, Neurons in primary motor cortex engaged during action observation, Eur J Neurosci, vol.31, pp.386-398, 2010.

E. Gerardin, A. Sirigu, S. Lehericy, J. B. Poline, B. Gaymard et al., Partially overlapping neural networks for real and imagined hand movements, Cereb Cortex, vol.10, p.11053230, 2000.
URL : https://hal.archives-ouvertes.fr/hal-00349826

A. Guillot, C. Collet, V. A. Nguyen, F. Malouin, C. Richards et al., Functional neuroanatomical networks associated with expertise in motor imagery, Neuroimage, vol.41, pp.1471-1483, 2008.

L. Confalonieri, G. Pagnoni, L. W. Barsalou, J. Rajendra, S. B. Eickhoff et al., Brain Activation in Primary Motor and Somatosensory Cortices during Motor Imagery Correlates with Motor Imagery Ability in Stroke Patients, ISRN Neurol, p.613595, 2012.

A. Solodkin, P. Hlustik, E. E. Chen, and S. L. Small, Fine modulation in network activation during motor execution and motor imagery, Cereb Cortex, vol.14, pp.1246-1255, 2004.
DOI : 10.1093/cercor/bhh086

URL : https://academic.oup.com/cercor/article-pdf/14/11/1246/17295035/bhh086.pdf

C. H. Kasess, C. Windischberger, R. Cunnington, R. Lanzenberger, L. Pezawas et al., The suppressive influence of SMA on M1 in motor imagery revealed by fMRI and dynamic causal modeling, Neuroimage, vol.40, pp.828-837, 2008.

Q. Gao, X. Duan, and H. Chen, Evaluation of effective connectivity of motor areas during motor imagery and execution using conditional Granger causality, Neuroimage, vol.54, p.20828626, 2011.

P. E. Downing, A Cortical Area Selective for Visual Processing of the Human Body, Science, vol.293, pp.2470-2473, 2001.

A. Myers and P. T. Sowden, Your hand or mine? The extrastriate body area, Neuroimage, vol.42, pp.1669-1677, 2008.
DOI : 10.1016/j.neuroimage.2008.05.045

URL : http://epubs.surrey.ac.uk/754986/1/Myers%20%26%20Sowden%20manuscript%20revised%20v2.pdf

S. Vocks, M. Busch, D. Gronemeyer, D. Schulte, S. Herpertz et al., Differential neuronal responses to the self and others in the extrastriate body area and the fusiform body area, Cogn Affect Behav Neurosci, vol.10, p.20805543, 2010.

S. Ferri, H. Kolster, J. Jastorff, and G. A. Orban, The overlap of the EBA and the MT/V5 cluster, Neuroimage, vol.66, pp.412-425, 2012.

M. S. Graziano, Where is my arm? The relative role of vision and proprioception in the neuronal representation of limb position, Proc Natl Acad Sci U A, vol.96, pp.10418-10439, 1999.

M. S. Graziano and S. Gandhi, Location of the polysensory zone in the precentral gyrus of anesthetized monkeys, Exp Brain Res, vol.135, p.11131511, 2000.

H. H. Ehrsson, C. Spence, and R. E. Passingham, That's my hand! Activity in premotor cortex reflects feeling of ownership of a limb, Science, vol.305, pp.875-877, 2004.

V. I. Petkova, M. Bjornsdotter, G. Gentile, T. Jonsson, T. Q. Li et al., From part-to whole-body ownership in the multisensory brain, Curr Biol, vol.21, p.21683596, 2011.
DOI : 10.1016/j.cub.2011.05.022

URL : https://doi.org/10.1016/j.cub.2011.05.022

C. Brozzoli, G. Gentile, and H. H. Ehrsson, That's near my hand! Parietal and premotor coding of handcentered space contributes to localization and self-attribution of the hand, J Neurosci, vol.32, p.23077043, 2012.

G. L. Moseley, Cognitive neuroscience: swapping bodies in the brain, Curr Biol, vol.21, p.21820621, 2011.
DOI : 10.1016/j.cub.2011.06.031

URL : https://doi.org/10.1016/j.cub.2011.06.031

M. Tsakiris, M. D. Hesse, C. Boy, P. Haggard, and G. R. Fink, Neural signatures of body ownership: a sensory network for bodily self-consciousness, Cereb Cortex, vol.17, p.17138596, 2007.

H. O. Karnath and B. Baier, Right insula for our sense of limb ownership and self-awareness of actions, Brain Struct Funct, vol.214, pp.411-417, 2010.

M. Botvinick and J. Cohen, Rubber hands "feel" touch that eyes see, Nature, vol.391, p.756, 1998.
DOI : 10.1038/35784

URL : http://www.nature.com/nature/journal/v391/n6669/pdf/391756a0.pdf

M. Tsakiris and P. Haggard, Experimenting with the acting self, Cogn Neuropsychol, vol.22, pp.387-407, 2005.

M. Costantini and P. Haggard, The rubber hand illusion: sensitivity and reference frame for body ownership, Conscious Cogn, vol.16, p.17317221, 2007.
DOI : 10.1016/j.concog.2007.01.001

A. Haans, W. A. Ijsselsteijn, and Y. A. De-kort, The effect of similarities in skin texture and hand shape on perceived ownership of a fake limb, Body Image, vol.5, pp.389-394, 2008.

M. Tsakiris, My body in the brain: a neurocognitive model of body-ownership, Neuropsychologia, vol.48, pp.703-712, 2010.

T. Dummer, A. Picot-annand, T. Neal, and C. Moore, Movement and the rubber hand illusion, Perception, vol.38, p.19400435, 2009.

A. Kalckert and H. H. Ehrsson, Moving a Rubber Hand that Feels Like Your Own: A Dissociation of Ownership and Agency, Front Hum Neurosci, vol.6, p.22435056, 2012.

A. Kalckert and H. H. Ehrsson, The moving rubber hand illusion revisited: comparing movements and visuotactile stimulation to induce illusory ownership, Conscious Cogn, vol.26, pp.117-132, 2014.

A. Kalckert and H. H. Ehrsson, The spatial distance rule in the moving and classical rubber hand illusions, Conscious Cogn, vol.30, p.25286241, 2014.

M. Tsakiris, G. Prabhu, and P. Haggard, Having a body versus moving your body: How agency structures body-ownership, Conscious Cogn, vol.15, pp.423-432, 2006.

M. Kammers, F. De-vignemont, L. Verhagen, and H. C. Dijkerman, The rubber hand illusion in action, Neuropsychologia, vol.47, pp.204-211, 2009.

M. R. Longo and P. Haggard, Sense of agency primes manual motor responses, Perception, vol.38, p.19323137, 2009.

A. S. Rothgangel, S. M. Braun, A. J. Beurskens, R. J. Seitz, and D. T. Wade, The clinical aspects of mirror therapy in rehabilitation: a systematic review of the literature, Int J Rehabil Res, vol.34, p.21326041, 2011.

M. Metral, M. Guinot, J. Bresciani, M. Luyat, J. Roulin et al., Bimanual coordination with three hands: is the mirror hand of any help?, Neuropsychologia, vol.52, pp.11-18, 2014.
URL : https://hal.archives-ouvertes.fr/hal-00926581

, Visually Induced Kinesthetic Perception PLOS ONE, 201520-08-19.