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ArmSleeve: A Patient Monitoring System to Support Occupational Therapists in Stroke Rehabilitation.

, , , , , , , и . Conference on Designing Interactive Systems, стр. 700-711. ACM, (2016)

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Anders Fongen

Sandiway Fong

Fongjan Jirasit

Ernest Anye Fongwa

Matthias Fonger

 

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Indirect Robotic Movement Shaping through Motor Cost Influence., , , и . ICORR, стр. 977-982. IEEE, (2019)The Effect of Crutch Gait Pattern on Shoulder Reaction Force when Walking with Lower Limb Exoskeletons., , , , и . EMBC, стр. 7574-7577. IEEE, (2021)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)Effect Of Arm Deweighting Using End-Effector Based Robotic Devices On Muscle Activity., , , , , , и . EMBC, стр. 2470-2474. IEEE, (2018)Exploring the Utility of Crutch Force Sensors to Predict User Intent in Assistive Lower Limb Exoskeletons., , , , , и . ICORR, стр. 1-6. IEEE, (2022)ArmSleeve: A Patient Monitoring System to Support Occupational Therapists in Stroke Rehabilitation., , , , , , , и . Conference on Designing Interactive Systems, стр. 700-711. ACM, (2016)Quantifying task similarity for skill generalisation in the context of human motor control., , , , , и . ICARCV, стр. 1-6. IEEE, (2016)Investigating User Volitional Influence on Step Length in Powered Exoskeleton Designed for Users with SCI., , , и . ICORR, стр. 1-6. IEEE, (2022)Direct versus Indirect Visual Feedback: the Effect of Technology in Neurorehabilitation., , , , и . NER, стр. 105-109. IEEE, (2019)