R. S. Allison, B. J. Gillam, and E. Vecellio, Binocular depth discrimination and estimation beyond interaction space, Journal of Vision, vol.9, issue.1, pp.10-10, 2009.

T. Banton, J. Stefanucci, F. Durgin, A. Fass, and D. R. Proffitt, The perception of walking speed in a virtual environment, Presence, vol.14, issue.4, pp.394-406, 2005.

A. Berthoz, B. Pavard, Y. , and L. R. , Perception of linear horizontal self-motion induced by peripheral vision (linearvection) basic characteristics and visual-vestibular interactions, Experimental brain research, vol.23, issue.5, pp.471-489, 1975.

T. Brandt, J. Dichgans, and E. Koenig, Differential effects of central versus peripheral vision on egocentric and exocentric motion perception, Experimental brain research, vol.16, issue.5, pp.476-491, 1973.

J. Bredin, Y. Kerlirzin, and I. Israël, Path integration: is there a difference between athletes and non-athletes?, Experimental brain research, vol.167, pp.670-674, 2005.

K. R. Brooks and M. E. Rafat, Simulation of driving in low-visibility conditions: Does stereopsis improve speed perception, Perception, vol.44, issue.2, pp.145-156, 2015.

M. Caramenti, C. L. Lafortuna, E. Mugellini, O. A. Khaled, J. Bresciani et al., Matching optical flow to motor speed in virtual reality while running on a treadmill, PloS one, vol.13, issue.4, pp.195781-0195781, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01980826

M. Caramenti, C. L. Lafortuna, E. Mugellini, O. A. Khaled, J. Bresciani et al., Regular physical activity modulates perceived visual speed when running in treadmillmediated virtual environments, 2019.

S. S. Chance, F. Gaunet, A. C. Beall, and J. M. Loomis, Locomotion mode affects the updating of objects encountered during travel: The contribution of vestibular and proprioceptive inputs to path integration, Presence: Teleoperators and Virtual Environments, vol.7, issue.2, pp.168-178, 1998.

M. Czerwinski, D. S. Tan, and G. G. Robertson, Women take a wider view, Proceedings of the SIGCHI conference on Human factors in computing systems, pp.195-202

F. H. Durgin, When walking makes perception better, Current Directions in Psychological Science, vol.18, issue.1, pp.43-47, 2009.

F. H. Durgin, L. F. Fox, E. Schaffer, and R. Whitaker, The perception of linear selfmotion, Electronic Imaging, pp.503-514, 2005.

F. H. Durgin and K. Gigone, Enhanced optic flow speed discrimination while walking: Contextual tuning of visual coding, Perception, vol.36, issue.10, pp.1465-1475, 2007.

F. H. Durgin, K. M. Gigone, and E. Schaffer, Improved visual speed discrimination while walking, Journal of Vision, vol.4, issue.8, pp.802-802, 2004.

F. H. Durgin, A. Pelah, L. F. Fox, J. Lewis, R. Kane et al., Self-motion perception during locomotor recalibration: more than meets the eye, Journal of Experimental Psychology: Human Perception and Performance, vol.31, issue.3, pp.398-398, 2005.

C. Graff, Expressing relative differences (in percent) by the difference of natural logarithms, Journal of Mathematical Psychology, vol.60, pp.82-85, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01419360

R. Jürgens and W. Becker, Perception of angular displacement without landmarks: evidence for Bayesian fusion of vestibular, optokinetic, podokinesthetic, and cognitive information, Experimental Brain Research, vol.174, issue.3, pp.528-543, 2006.

L. Kassler, J. Feasel, M. D. Lewek, F. P. Brooks, and M. C. Whitton, Matching actual treadmill walking speed and visually perceived walking speed in a projection virtual environment, Proceedings of the 7th Symposium on Applied Perception in Graphics and Visualization, pp.161-161

F. A. Kingdom and N. Prins, Psychophysics: A Practical Introduction, 2010.

P. W. Kong, N. G. Candelaria, and J. Tomaka, Perception of self-selected running speed is influenced by the treadmill but not footwear, Sports Biomechanics, vol.8, issue.1, pp.52-59, 2009.

P. W. Kong, T. M. Koh, W. C. Tan, and Y. S. Wang, Unmatched perception of speed when running overground and on a treadmill, Gait & posture, vol.36, issue.1, pp.46-48, 2012.

M. R. Leek, Adaptive procedures in psychophysical research, Perception & psychophysics, vol.63, issue.8, pp.1279-1292, 2001.

J. M. Loomis, J. A. Da-silva, J. W. Philbeck, and S. S. Fukusima, Visual perception of location and distance, Current Directions in Psychological Science, vol.5, issue.3, pp.72-77, 1996.

J. M. Loomis, R. L. Klatzky, R. G. Golledge, and J. W. Philbeck, Human navigation by path integration. Wayfinding behavior: Cognitive mapping and other spatial processes, pp.125-151, 1999.

A. P. Marsh, J. A. Katula, C. F. Pacchia, L. C. Johnson, K. L. Koury et al., Effect of treadmill and overground walking on function and attitudes in older adults, Medicine and science in sports and exercise, vol.38, issue.6, pp.1157-1157, 2006.

M. Mittelstaedt and H. Mittelstaedt, Idiothetic navigation in humans: estimation of path length, Experimental Brain Research, vol.139, issue.3, pp.318-332, 2001.

B. J. Mohler, W. B. Thompson, S. H. Creem-regehr, H. L. Pick, W. Jr et al., Visual flow influences gait transition speed and preferred walking speed, Experimental brain research, vol.181, issue.2, pp.221-228, 2007.

B. J. Mohler, W. B. Thompson, B. Riecke, and H. H. Bülthoff, Measuring vection in a large screen virtual environment, Proceedings of the 2nd Symposium on Applied Perception in Graphics and Visualization), pp.103-109

R. C. Nelson, C. J. Dillman, P. Lagasse, and P. Bickett, Biomechanics of overground versus treadmill running, Medicine and science in sports, vol.4, issue.4, p.233, 1972.

B. M. Nigg, R. W. De-boer, and V. Fisher, A kinematic comparison of overground and treadmill running, Medicine and Science in Sports and Exercise, vol.27, issue.1, pp.98-105, 1995.

N. C. Nilsson, R. Nordahl, and S. Serafin, Waiting for the ultimate display: can decreased fidelity positively influence perceived realism?, Everyday Virtual Reality, pp.1-5, 2017.

N. C. Nilsson, S. Serafin, and R. Nordahl, Establishing the range of perceptually natural visual walking speeds for virtual walking-in-place locomotion, IEEE transactions on visualization and computer graphics, vol.20, issue.4, pp.569-578, 2014.

S. Palmisano, R. G. Davies, and K. R. Brooks, Vection strength increases with simulated eyeseparation. Attention, Perception, & Psychophysics, vol.81, issue.1, pp.281-295, 2019.

S. Palmisano, B. Gillam, D. G. Govan, R. S. Allison, and J. M. Harris, Stereoscopic perception of real depths at large distances, Journal of vision, vol.10, issue.6, pp.19-19, 2010.

A. Pelah, J. Barbur, A. Thurrell, and H. S. Hock, The coupling of vision with locomotion in cortical blindness, Vision Res, vol.110, pp.286-294, 2015.

A. Pelah and H. B. Barlow, Visual illusion from running, Nature, 1996.

W. Powell, B. Stevens, S. Hand, and M. Simmonds, Blurring the boundaries: The perception of visual gain in treadmill-mediated virtual environments, 3rd IEEE VR 2011 Workshop on Perceptual Illusions in Virtual Environments)

P. Pretto, J. Bresciani, G. Rainer, and H. H. Bülthoff, Foggy perception slows us down, vol.1, pp.31-00031, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00947229

P. Pretto, M. Ogier, H. H. Bülthoff, and J. Bresciani, Influence of the size of the field of view on motion perception, Computers & Graphics, vol.33, issue.2, pp.139-146, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00947248

P. O. Riley, J. Dicharry, J. Franz, U. Della-croce, R. P. Wilder et al., A kinematics and kinetic comparison of overground and treadmill running, Medicine and science in sports and exercise, vol.40, issue.6, pp.1093-1100, 2008.

J. L. Souman, I. Frissen, M. N. Sreenivasa, and M. O. Ernst, Walking straight into circles, Current Biology, vol.19, issue.18, pp.1538-1542, 2009.

H. Sun, J. L. Campos, C. , and G. S. , Multisensory integration in the estimation of relative path length, Experimental Brain Research, vol.154, issue.2, pp.246-254, 2004.

H. Sun, J. L. Campos, M. Young, G. S. Chan, and C. G. Ellard, The contributions of static visual cues, nonvisual cues, and optic flow in distance estimation, Perception, vol.33, issue.1, pp.49-66, 2004.

A. Thurrell and A. Pelah, Matching visual and nonvisual signals: evidence for a mechanism to discount optic flow during locomotion, Human Vision and Electronic Imaging X), pp.434-448

A. E. Thurrell and A. Pelah, Reduction of perceived visual speed during walking: Effect dependent upon stimulus similarity to the visual consequences of locomotion, Journal of Vision, vol.2, issue.7, pp.628-628, 2002.

A. E. Thurrell, A. Pelah, and H. K. Distler, The influence of non-visual signals of walking on the perceived speed of optic flow, Perception, vol.27, pp.147-148, 1998.

K. A. Turano, D. Yu, L. Hao, and J. C. Hicks, Optic-flow and egocentric-direction strategies in walking: Central vs peripheral visual field, Vision research, vol.45, issue.25, pp.3117-3132, 2005.

H. A. Van-veen, H. K. Distler, S. J. Braun, and H. H. Bülthoff, Navigating through a virtual city: Using virtual reality technology to study human action and perception, Future Generation Computer Systems, vol.14, issue.3-4, pp.231-242, 1998.

V. Wank, U. Frick, and D. Schmidtbleicher, Kinematics and electromyography of lower limb muscles in overground and treadmill running, International journal of sports medicine, vol.19, issue.07, pp.455-461, 1998.

W. H. Warren and D. J. Hannon, Direction of self-motion is perceived from optical flow, Nature, vol.336, issue.6195, pp.162-163, 1988.

S. C. White, H. J. Yack, C. A. Tucker, and H. Lin, Comparison of vertical ground reaction forces during overground and treadmill walking, Medicine and science in sports and exercise, vol.30, issue.10, pp.1537-1542, 1998.

L. Yardley and M. Higgins, Spatial updating during rotation: The role of vestibular information and mental activity, Journal of Vestibular Research, vol.8, issue.6, pp.435-442, 1998.