![]() ![]() Scano A, Chiavenna A, Malosio M, Molinari Tosatti L, Molteni F. Control of reaching movements by muscle synergy combinations. Comparison of muscle synergies for running between different foot strike patterns. Nishida K, Hagio S, Kibushi B, Moritani T, Kouzaki M. Comparison of muscle synergies before and after 10 minutes of running. Common muscle synergies for balance and walking. Converging clinical and engineering research on neurorehabilitation II. Different temporal structure of muscle synergy between sit-to-Walk and sit-to-Stand motions in human standing leg. In: IEEE international conference on rehabilitation robotics (ICORR), London 2017. Clarification of muscle synergy structure during standing-up motion of healthy young, elderly and post-stroke patients. Yang N, An Q, Yamakawa H, Tamura Y, Yamashita A, Asama H. Novel approach to the segmentation of sEMG data based on the activation and deactivation of muscle synergies during movement. Costa-Garc¨ia A, Itkonen M, Yamasaki H, Shibata-Alnajjar F, Shimoda SA. Stages in learning motor synergies: a view based on the equilibrium-point hypothesis. Modularity in motor control: from muscle synergies to cognitive action representation. d'Avella A, Giese M, Ivanenko YP, Schack T, Flash T. Hierarchies of synergies in human movements. The co-ordination and regulation of movements. Our results show that the same motor control strategies for cycling are used by all subjects in various mechanical conditions. We found the high degrees of similarity (>0.85) among the sets of time-varying muscle synergies across mechanical conditions and also across subjects. We investigated the similarity of muscle synergies during cycling across various mechanical conditions. Mean and standard deviation of the quality of the signal reconstruction (R 2) for all subjects was obtained 0.9328 ± 0.0120. We extracted four time-varying muscle synergies from sEMG patterns. Surface electromyography signals were recorded during pedaling from eight muscles of the right and left lower limbs. Twenty healthy subjects performed three 6-min cycling tasks over a range of rotational speed (40, 50, and 60 rpm) and resistant torque (3, 5, and 7 N/M). The aim of this study was to investigate the muscle coordination in both leg muscles during pedaling by time-varying muscle synergy extraction. Central nervous system (CNS) uses the combination of a small number of motor primitives, named muscle synergies, for simplification of motor control in human movement. ![]()
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