, Learning to synchronously imitate gestures using entrainment effect, International conference on simulation of adaptive behavior, pp.219-231, 2016.

D. Bullock and S. Grossberg, The VITE model: a neural command circuit for generating arm and articulator trajectories. Dynamic patterns in complex systems, pp.305-326, 1988.

Z. Cao, G. Hidalgo, T. Simon, S. Wei, and Y. Sheikh, OpenPose: realtime multi-person 2D pose estimation using Part Affinity Fields, 2018.

S. Degallier, L. Righetti, S. Gay, and A. Ijspeert, Toward simple control for complex, autonomous robotic applications: combining discrete and rhythmic motor primitives, Autonomous Robots, vol.31, pp.155-181, 2011.

E. Delaherche, M. Chetouani, A. Mahdhaoui, C. Saint-georges, S. Viaux et al., Interpersonal Synchrony: A Survey of Evaluation Methods across Disciplines, IEEE Transactions on Affective Computing, vol.3, pp.349-365, 2012.
URL : https://hal.archives-ouvertes.fr/hal-02423205

P. Jacek, P. Dmochowski, J. Sajda, L. Dias, and . Parra, Correlated components of ongoing EEG point to emotionally laden attention-a possible marker of engagement?, Frontiers in human neuroscience, vol.6, p.112, 2012.

M. Ellamil, J. Berson, and D. S. Margulies, Influences on and Measures of Unintentional Group Synchrony, Frontiers in psychology, vol.7, p.1744, 2016.

M. Eva, H. S. Fernández, and . Cairns, The Handbook of Psycholinguistics, 2017.

S. Grillner and P. Wallen, Central pattern generators for locomotion, with special reference to vertebrates, Annual review of neuroscience, vol.8, pp.233-261, 1985.

. Mathieu-gueugnon, N. Robin, A. Salesse, Z. Coste, . Zhao et al., Postural coordination during socio-motor improvisation, Frontiers in psychology, vol.7, p.1168, 2016.

E. Hopf, Abzweigung einer periodischen Lösung von einer stationären Lösung eines Differentialsystems, Ber. Math.-Phys. Kl Sächs. Akad. Wiss. Leipzig, vol.94, pp.1-22, 1942.

J. Auke-jan-ijspeert, S. Nakanishi, and . Schaal, Learning rhythmic movements by demonstration using nonlinear oscillators, Proceedings of the ieee/rsj int. conference on intelligent robots and systems, pp.958-963, 2002.

M. Jouaiti, L. Caron, and P. Hénaff, Hebbian plasticity in CPG controllers facilitates self-synchronization for human-robot handshaking, Frontiers in Neurorobotics, vol.12, p.29, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01811316

M. Jouaiti and P. Henaff, CPG-based Controllers can Generate Both Discrete and Rhythmic Movements, IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS), 2018.
URL : https://hal.archives-ouvertes.fr/hal-01837189

J. Lachaux, E. Rodriguez, J. Martinerie, J. Francisco, and . Varela, Measuring phase synchrony in brain signals, Human brain mapping, vol.8, pp.194-208, 1999.

T. Lorenz, A. Weiss, and S. Hirche, Synchrony and Reciprocity: Key Mechanisms for Social Companion Robots in Therapy and Care, International Journal of Social Robotics, vol.8, pp.125-143, 2016.

M. Macdonald, C. Lord, and D. Ulrich, Motor skills and calibrated autism severity in young children with autism spectrum disorder, Adapted physical activity quarterly, vol.31, pp.95-105, 2014.

. C-neil-macrae, K. Oonagh, . Duffy, K. Lynden, J. Miles et al., A case of hand waving: Action synchrony and person perception, Cognition, vol.109, pp.152-156, 2008.

J. Martinez, R. Hossain, J. Romero, and J. J. Little, A simple yet effective baseline for 3d human pose estimation, Proceedings of the IEEE International Conference on Computer Vision, pp.2640-2649, 2017.

A. Paxton and R. Dale, Interpersonal Movement Synchrony Responds to High-and Low-Level Conversational Constraints, Frontiers in psychology, vol.8, p.1135, 2017.

D. Pongas, A. Billard, and S. Schaal, Rapid synchronization and accurate phase-locking of rhythmic motor primitives, Intelligent Robots and Systems, pp.2911-2916, 2005.

T. Alan, . Pope, H. Edward, D. S. Bogart, and . Bartolome, Biocybernetic system evaluates indices of operator engagement in automated task, Biological psychology, vol.40, pp.187-195, 1995.

N. A. Ilya-a-rybak, M. Shevtsova, D. A. Lafreniere-roula, and . Mc-crea, Modelling spinal circuitry involved in locomotor pattern generation: insights from deletions during fictive locomotion, The Journal of physiology, vol.577, pp.617-639, 2006.

C. Richard, C. Schmidt, M. T. Carello, and . Turvey, Phase transitions and critical fluctuations in the visual coordination of rhythmic movements between people, vol.16, p.227, 1990.

L. Candace, C. Sidner, C. D. Lee, N. Kidd, C. Lesh et al., Explorations in engagement for humans and robots, Artificial Intelligence, vol.166, pp.140-164, 2005.

M. Sudha, M. Srinivasan, . Kaur, K. Isabel, T. D. Park et al., The effects of rhythm and robotic interventions on the imitation/praxis, interpersonal synchrony, and motor performance of children with autism spectrum disorder (ASD): a pilot randomized controlled trial, Autism research and treatment, 2015.

E. Tognoli, J. Lagarde, G. C. Deguzman, and J. Kelso, The phi complex as a neuromarker of human social coordination. Proceedings of the National Academy of, Sciences, vol.104, pp.8190-8195, 2007.

F. Varela, J. Lachaux, E. Rodriguez, and J. , The brainweb: phase synchronization and large-scale integration, Nature reviews neuroscience, vol.2, issue.4, p.229, 2001.