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Myoelectric model-based control of a bi-lateral robotic ankle exoskeleton during even ground locomotion *.

, , , и . BioRob, стр. 822-826. IEEE, (2020)

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Peter Sartori

Carlheinz Sartori

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Valentina Sartori

 

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Corrections to "Neural Data-Driven Musculoskeletal Modeling for Personalized Neurorehabilitation Technologies"., , и . IEEE Trans. Biomed. Eng., 63 (6): 1341 (2016)Closed-loop EMG-informed model-based analysis of human musculoskeletal mechanics on rough terrains., , , , и . ICORR, стр. 364-368. IEEE, (2017)Predictive Control of Peak Achilles Tendon Force in a Simulated System of the Human Ankle Joint with a Parallel Artificial Actuator During Hopping., , и . ICORR, стр. 1-6. IEEE, (2023)Neural data-driven model of spinal excitability changes induced by transcutaneous electrical stimulation in spinal cord injury subjects., , , , и . ICORR, стр. 1-6. IEEE, (2022)Model-Based Estimation of Ankle Joint Stiffness During Dynamic Tasks: a Validation-Based Approach., , , , , и . EMBC, стр. 4104-4107. IEEE, (2019)Electromechanical delay in the tibialis anterior muscle during time-varying ankle dorsiflexion., , , , , , и . ICORR, стр. 68-71. IEEE, (2017)Toward Muscle-Driven Control of Wearable Robots: A Real-Time Framework for the Estimation of Neuromuscular States During Human-Exoskeleton Locomotion Tasks., , , и . BioRob, стр. 683-688. IEEE, (2018)Does a Soft Actuated Back Exosuit Influence Multimodal Physiological Measurements and User Perception During an Industry Inspired Task?, , , , , , , , , и 5 other автор(ы). ICORR, стр. 1-6. IEEE, (2023)Editorial: Neuromechanics and Control of Physical Behavior: From Experimental and Computational Formulations to Bio-inspired Technologies., , , , , и . Frontiers Comput. Neurosci., (2019)Estimation of Time-Varying Ankle Joint Stiffness Under Dynamic Conditions via System Identification Techniques., , , , , и . EMBC, стр. 2119-2122. IEEE, (2019)