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Autonomous Assistive Exoskeleton Control System Integrating Eeg/Emg Intent Decoding

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dc.contributor.author Simango, D.
dc.contributor.author Muchenje, Sean T.
dc.contributor.author Makusha, D. T.
dc.contributor.author Sibanda, Brian
dc.date.accessioned 2026-06-23T12:25:26Z
dc.date.available 2026-06-23T12:25:26Z
dc.date.issued 2025
dc.identifier.citation Sean, T., & Muchenje, D. (2025). Autonomous assistive exoskeleton control system integrating EEG/EMG intent decoding. en_US
dc.identifier.uri https://ir.cut.ac.zw:8080/xmlui/handle/123456789/806
dc.description.abstract Mobility impairments caused by spinal cord injuries, stroke, and degenerative disorders limit independ ence for millions worldwide. This study presents a low-cost lower-limb exoskeleton that decodes user intention in real time using electroencephalographic (EEG) and electromyographic (EMG) signals. The system employs a PIC16F877A microcontroller executing adaptive impedance control and gait-phase recognition, with a Kalman filter combining inertial, torque, and bio-signal inputs to generate smooth hip–knee trajectories. Bench-top and hardware-in-the-loop simulations classified four locomotor commands – stand, sit, walk, stop – with 96 % accuracy and a maximum 85 ms latency. The lightweight 3.8 kg aluminium–carbon frame, powered by back drivable BLDC motors, reproduced natural hip excursions of 15–35° at 1.2 s cadence. The results validate the feasibility of embedding edge AI for assistive gait restoration in resource-constrained clinical contexts. Keywords: exoskeleton, EEG, EMG, intent recognition, adaptive control, rehabilitation. en_US
dc.language.iso en en_US
dc.subject exoskeleton en_US
dc.subject EEG en_US
dc.subject EMG en_US
dc.subject intent recognition en_US
dc.subject adaptive control en_US
dc.subject rehabilitation en_US
dc.title Autonomous Assistive Exoskeleton Control System Integrating Eeg/Emg Intent Decoding en_US
dc.identifier.orcid /0009-0005-6625-3232 en_US


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