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Using sEMG Signal Frequency to Evaluate Post-Stroke Elbow Spasticity.

, , , , , , , и . EMBC, стр. 1-4. IEEE, (2023)

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Vincent Tejedor

Vincent Kuhn

Vincent Saderne

Vincent Liebert

Vincent Feyen

 

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Upper Limb Deweighting Using Underactuated End-Effector-Based Backdrivable Manipulanda., , , , , и . IEEE Robotics Autom. Lett., 3 (3): 2116-2122 (2018)A Method for measuring the upper limb motion and computing a compatible exoskeleton trajectory., , и . IROS, стр. 3461-3466. IEEE, (2012)Direct versus Indirect Visual Feedback: the Effect of Technology in Neurorehabilitation., , , , и . NER, стр. 105-109. IEEE, (2019)Calibration free upper limb joint motion estimation algorithm with wearable sensors., , , , , и . ICARCV, стр. 1-6. IEEE, (2016)Effect Of Arm Deweighting Using End-Effector Based Robotic Devices On Muscle Activity., , , , , , и . EMBC, стр. 2470-2474. IEEE, (2018)EMU: A transparent 3D robotic manipulandum for upper-limb rehabilitation., , , , и . ICORR, стр. 771-776. IEEE, (2017)An investigation into the reliability of upper-limb robotic exoskeleton measurements for clinical evaluation in neurorehabilitation., , , и . NER, стр. 795-798. IEEE, (2015)Using sEMG Signal Frequency to Evaluate Post-Stroke Elbow Spasticity., , , , , , , и . EMBC, стр. 1-4. IEEE, (2023)Towards a Gaze-Informed Movement Intention Model for Robot-Assisted Upper-Limb Rehabilitation., , , и . EMBC, стр. 6155-6158. IEEE, (2021)A Practical Post-Stroke Elbow Spasticity Assessment Using an Upper Limb Rehabilitation Robot: A Validation Study., , , , , , , , и . EMBC, стр. 4159-4162. IEEE, (2022)