B. Albrecht, H. Heinrich, D. Brandeis, H. Uebel, J. Yordanova et al., , p.803

A. Rothenberger and T. Banaschewski, Flanker-task in children: 804 time-frequency analyses of response monitoring, J Psychophysiol, vol.805, pp.183-190, 2009.

A. R. Aron and R. A. Poldrack, Cortical and subcortical contributions to 807 stop signal response inhibition: role of the subthalamic nucleus, J 808 Neurosci, vol.26, pp.2424-2433, 2006.

Y. Brenie`re and M. C. Do, Control of gait initiation, J Mot Behav, vol.810, pp.235-240, 1991.

P. Capotosto, A. Baldassarre, C. Sestieri, S. Spadone, and G. L. Romani, , p.812

M. Corbetta, Task and regions specific top-down modulation 813 of alpha rhythms in parietal cortex, Cereb Cortex N Y N, vol.814, pp.4815-4822, 1991.

L. Carbonnell and M. Falkenstein, Does the error negativity reflect 816 the degree of response conflict, Brain Res, vol.1095, pp.124-130, 2006.

L. Charles, F. Van-opstal, S. Marti, and S. Dehaene, Distinct brain 818 mechanisms for conscious versus subliminal error detection, 2013.

, NeuroImage, vol.73, pp.80-94

R. G. Cohen, J. G. Nutt, and F. B. Horak, Errors in postural preparation 821 lead to increased choice reaction times for step initiation in older 822 adults, J Gerontol A Biol Sci Med Sci. Available, 2011.

E. Combrisson, M. Perrone-bertolotti, J. L. Soto, G. Alamian, and P. Kahane, , p.825

J. Lachaux, A. Guillot, and K. Jerbi, From intentions to actions, p.880, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01569087

, Electroencephalogr Clin Neurophysiol, vol.101, pp.110-120

C. R. Genovese, N. A. Lazar, and T. Nichols, , 2002.

, NeuroImage, vol.15, pp.870-878

A. Gramfort, T. Papadopoulo, E. Olivi, and M. Clerc, , p.885, 2010.

T. Hamano, H. O. Lu¨ders, A. Ikeda, T. F. Collura, and Y. G. Comair,

, Clin Neurophysiol, vol.104, pp.257-268

H. Hill and M. Raab, , 2005.

R. J. Huster, S. Enriquez-geppert, C. F. Lavallee, and M. Falkenstein, , p.895

C. S. Herrmann, Electroencephalography of response 896 inhibition tasks: functional networks and cognitive contributions, vol.897, 2013.

, Int J Psychophysiol Off J Int Organ Psychophysiol, vol.87, pp.217-233

J. V. Jacobs, J. S. Lou, J. A. Kraakevik, and F. B. Horak, , 2009.

N. Jiang, L. Gizzi, N. Mrachacz-kersting, K. Dremstrup, and D. Farina, , p.904, 2015.

V. Kolev, M. Falkenstein, and J. Yordanova, Aging and error 908 processing: time-frequency analysis of error-related potentials, J, vol.909, 2005.

, Psychophysiol, vol.19, pp.289-297

V. Kolev, J. Yordanova, and M. Schu¨rmann, Bas ßar E, 2001.

, Psychophysiol, vol.39, pp.159-165

A. , Executive control and response expectancy: a Laplacian 934 ERP study, Neuroscience xxx, vol.48, pp.303-311, 2011.

Z. S. Nasreddine, N. A. Phillips, V. Be´dirian, S. Charbonneau, V. Whitehead-936 et al., The Montreal, 2005.

, MoCA: a brief screening tool for mild 938 cognitive impairment, Cognitive Assessment, vol.53, pp.695-699

A. H. Neuhaus, C. Urbanek, C. Opgen-rhein, E. Hahn, T. Ta et al., Event-related potentials associated 941 with Attention Network Test, Int J Psychophysiol Off J Int Organ 942 Psychophysiol, vol.76, pp.72-79, 2010.

C. Neuper, M. Wo¨rtz, and G. Pfurtscheller, ERD/ERS patterns 944 reflecting sensorimotor activation and deactivation, Prog Brain 945 Res, vol.159, pp.211-222, 2006.

S. Nieuwenhuis, K. R. Ridderinkhof, J. Blom, G. P. Band, and A. Kok, , 2001.

, Error-related brain potentials are differentially related to 948 awareness of response errors: evidence from an antisaccade 949 task, Psychophysiology, vol.38, pp.752-760

R. Oostenveld and P. Praamstra, The five percent electrode system 951 for high-resolution EEG and ERP measurements, Clin 952 Neurophysiol Off J Int Fed Clin Neurophysiol, vol.112, pp.713-719, 2001.

P. A. Pahapill and A. M. Lozano, , p.954, 2000.

, Parkinson's disease, Brain J Neurol, vol.123, pp.1767-1783

G. Pfurtscheller, Central beta rhythm during sensorimotor 956 activities in man, Electroencephalogr Clin Neurophysiol, vol.957, pp.253-264, 1981.

G. Pfurtscheller and C. Andrew, Event-Related changes of band 959 power and coherence: methodology and interpretation, J Clin, p.960, 1999.

, Neurophysiol Off Publ Am Electroencephalogr Soc, vol.16, pp.512-519

G. Pfurtscheller and F. H. Lopes-da-silva, Event-related EEG/MEG 962 synchronization and desynchronization: basic principles, Clin, vol.963, 1999.

, Neurophysiol Off J Int Fed Clin Neurophysiol, vol.110, pp.1842-1857

A. Queralt, . Valls-sole´j, and J. M. Castellote, Speeding up gait 965 initiation and gait-pattern with a startling stimulus, Gait Posture, vol.966, pp.185-190, 2010.

J. R. Ramautar, A. Kok, and K. R. Ridderinkhof, Effects of stop-signal 968 modality on the N2/P3 complex elicited in the stop-signal 969 paradigm, Biol Psychol, vol.72, pp.96-109, 2006.

I. Rektor and B. Sochu?rkova´d, Intracerebral ERD/ERS in 971 voluntary movement and in cognitive visuomotor task, Prog Brain 972 Res, vol.159, pp.311-330, 2006.

A. I. Sburlea, L. Montesano, and R. C. De-la-cuerda, Alguacil Diego IM, p.974

J. C. Miangolarra-page and J. Minguez, Detecting intention to 975 walk in stroke patients from pre-movement EEG correlates, J 976 NeuroEngineering Rehabil, vol.12, p.113, 2015.

K. Song, M. Meng, L. Chen, K. Zhou, and H. Luo, Behavioral 978 oscillations in attention: rhythmic a pulses mediated through h 979 band, J Neurosci Off J Soc Neurosci, vol.34, pp.4837-4844, 2014.

N. Swann, N. Tandon, R. Canolty, T. M. Ellmore, L. K. Mcevoy et al., , p.981

M. Disano and A. R. Aron, EEG reveals a time-and 982, 2009.

N. C. Swann, W. Cai, C. R. Conner, T. A. Pieters, M. P. Claffey et al., , p.986

A. R. Aron and N. Tandon, , pp.2860-2870, 201259.

F. Tadel, S. Baillet, J. C. Mosher, D. Pantazis, and R. M. Leahy, , p.991, 2011.

, Brainstorm: a user-friendly application for MEG/EEG analysis, p.992

, Comput Intell Neurosci, vol.879716, p.993, 2011.

K. Takakusaki, Forebrain control of locomotor behaviors, Brain, vol.994, 2008.

, Res Rev, vol.57, pp.192-198

C. Tard, K. Dujardin, J. Bourriez, P. Derambure, L. Defebvre et al., , p.996

, Neuroscience, vol.247, pp.25-34

C. Tard, K. Dujardin, A. Girard, M. Debaughrien, and P. Derambure, , p.1000

L. Defebvre and A. Delval, How does visuospatial attention 1001 modulate motor preparation during gait initiation? Exp Brain Res, p.1002, 2015.

K. Uemura, T. Oya, and Y. Uchiyama, , 2013.

K. Uemura, M. Yamada, K. Nagai, M. Shinya, and N. Ichihashi, Effect 1006 fallers and non-fallers, Aging Clin Exp Res, vol.24, pp.152-156, 2012.

J. Driel, K. R. Ridderinkhof, and M. X. Cohen, Not all errors are 1009 alike: theta and alpha EEG dynamics relate to differences in error-1010 processing dynamics, J Neurosci Off J Soc Neurosci, vol.32, pp.16795-16806, 1011.

F. Viallet, J. Massion, R. Massarino, and R. Khalil, , 1992.

, Expe´rimentation Ce´re´brale, vol.88, pp.674-684

M. Vidailhet, P. R. Atchison, F. Stocchi, P. D. Thompson, and J. C. Rothwell, , p.1018

C. D. Marsden, , 1995.

, Off J Mov Disord Soc, vol.10, pp.18-21

M. Vidailhet, F. Stocchi, J. C. Rothwell, P. D. Thompson, and B. L. Day, , 1022.

. Dj and C. D. Marsden, The Bereitschaftspotential preceding 1023 simple foot movement and initiation of gait in Parkinson's disease, p.1024, 1993.

, Neurology, vol.43, pp.1784-1788

F. Vidal, T. Hasbroucq, J. Grapperon, and M. Bonnet, Is the ''error 1026, 2000.

, Biol Psychol, vol.51, pp.109-128

J. Wagner, S. Makeig, M. Gola, C. Neuper, and G. Mu¨ller-putz, , vol.36, pp.2212-2226, 1028.

C. Wang, I. Ulbert, D. L. Schomer, K. Marinkovic, and E. Halgren, , p.1032, 2005.

, Responses of human anterior cingulate cortex microdomains to 1033 error detection, conflict monitoring, stimulus-response mapping, 1034 familiarity, and orienting, J Neurosci Off J Soc Neurosci, vol.25, pp.604-613, 1035.

T. Watanabe, K. Ishida, S. Tanabe, and I. Nojima, , 2016.

T. Watanabe, K. Tsutou, K. Saito, K. Ishida, S. Tanabe et al., , p.1040, 2016.

J. R. Wessel and A. R. Aron, On the globality of motor suppression: 1044 unexpected events and their influence on behavior and cognition, p.1045, 2017.

, Neuron, vol.93, pp.259-280