C-ALEX, a cable-driven unilateral leg exoskeleton designed for gait
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Frontiers Evolving Toward Subject-Specific Gait Rehabilitation Through Single-Joint Resistive Force Interventions
C-ALEX, a cable-driven unilateral leg exoskeleton designed for gait
Cable-driven systems for robotic rehabilitation - ScienceDirect
Victor GROSU, Doctor of Engineering, Vrije Universiteit Brussel, Brussels, VUB, Applied Mechanics (MECH)
Sensors, Free Full-Text
Biomechanical design and control of an eight DOF human lower extremity rehabilitation exoskeleton robot - ScienceDirect
Systematic Review on Wearable Lower Extremity Robotic Exoskeletons for Assisted Locomotion
Frontiers Coordination Between Partial Robotic Exoskeletons and Human Gait: A Comprehensive Review on Control Strategies
Victor GROSU, Doctor of Engineering, Vrije Universiteit Brussel, Brussels, VUB, Applied Mechanics (MECH)
PDF) Comparing the Performance of a Cable-Driven Active Leg Exoskeleton (C- ALEX) Over-Ground and on a Treadmill
ALEX Roar Lab
Systematic Review on Wearable Lower Extremity Robotic Exoskeletons for Assisted Locomotion
Sensors, Free Full-Text
Muscle-inspired bi-planar cable routing: a novel framework for designing cable driven lower limb rehabilitation exoskeletons (C-LREX)
Sensors, Free Full-Text
