Design and technical validation of a wearable biofeedback system for robotic gait rehabilitation

Abstract: Gait disabilities affect the human quality of life. Current directions for time-effective robotic gait rehabilitation require the inclusion of biofeedback systems (BSs) as a complementary robotic tool for efficient motor relearning. This work aims to present the user-centered design and validation of a wearable BS to foster users' active participation and enable therapists' effective participation during robotic gait rehabilitation driven by active orthoses. The multimodal BS comprises a development board to m… Show more

“…The proposed human-robot interaction-based biofeedback strategies were implemented into a wearable, multimodal, and open-architecture BS ( Figure 2 ), as described in [ 12 ]. It can provide patient-oriented vibrotactile and auditory cues through Eccentric Rotating Mass motors placed on elastic waist and shank bands, and earphones, respectively.…”

“…Therefore, during this strategy, an auditory cue is enabled when the user is not compliant with the exoskeleton’s direction of movement. The auditory cue is a sinusoidal tone (200 Hz) provided through a single earphone included in the BS [ 12 ]. The volume was adjusted so that users can hear the physiotherapist’s verbal instructions for additional support.…”

“…The 1st, 5th, 24th, and 31st values correspond to the heel-strike, flat-foot, heel-off, and toe-off gait events according to Winter in [ 15 ]. The study by [ 12 ] shows the operability of this algorithm. Each pre-training trial involves a 1-min walk on a treadmill with the ankle-foot exoskeleton running the trajectory tracking control at the training gait speed.…”

“…During this strategy, a vibrotactile cue is enabled when the user interacts with the exoskeleton and the direction of interaction is following the exoskeleton’s direction of movement. The vibrotactile cue is provided at 200 Hz 1.8 G through a vibrotactile shank band included in the BS [ 12 ]. This frequency was successfully perceived by post-stroke patients in [ 18 ].…”

“…It includes visual cues from a Light-Emitting Diode oriented to the physiotherapists, and auditory and vibrotactile cues from an earphone and elastic vibrotactile shank bands, respectively, both oriented to the patients. Detailed information about the design of the used BS can be found in [ 12 ].…”

Wearable Biofeedback Improves Human-Robot Compliance during Ankle-Foot Exoskeleton-Assisted Gait Training: A Pre-Post Controlled Study in Healthy Participants

“…The proposed human-robot interaction-based biofeedback strategies were implemented into a wearable, multimodal, and open-architecture BS ( Figure 2 ), as described in [ 12 ]. It can provide patient-oriented vibrotactile and auditory cues through Eccentric Rotating Mass motors placed on elastic waist and shank bands, and earphones, respectively.…”

“…Therefore, during this strategy, an auditory cue is enabled when the user is not compliant with the exoskeleton’s direction of movement. The auditory cue is a sinusoidal tone (200 Hz) provided through a single earphone included in the BS [ 12 ]. The volume was adjusted so that users can hear the physiotherapist’s verbal instructions for additional support.…”

“…The 1st, 5th, 24th, and 31st values correspond to the heel-strike, flat-foot, heel-off, and toe-off gait events according to Winter in [ 15 ]. The study by [ 12 ] shows the operability of this algorithm. Each pre-training trial involves a 1-min walk on a treadmill with the ankle-foot exoskeleton running the trajectory tracking control at the training gait speed.…”

“…During this strategy, a vibrotactile cue is enabled when the user interacts with the exoskeleton and the direction of interaction is following the exoskeleton’s direction of movement. The vibrotactile cue is provided at 200 Hz 1.8 G through a vibrotactile shank band included in the BS [ 12 ]. This frequency was successfully perceived by post-stroke patients in [ 18 ].…”

“…It includes visual cues from a Light-Emitting Diode oriented to the physiotherapists, and auditory and vibrotactile cues from an earphone and elastic vibrotactile shank bands, respectively, both oriented to the patients. Detailed information about the design of the used BS can be found in [ 12 ].…”

Wearable Biofeedback Improves Human-Robot Compliance during Ankle-Foot Exoskeleton-Assisted Gait Training: A Pre-Post Controlled Study in Healthy Participants

Wearable Vibrotactile Biofeedback to Improve Human-Exoskeleton Compliance During Assisted Gait Training

Biomechanical Assessment of Adapting Trajectory and Human-Robot Interaction Stiffness in Impedance-Controlled Ankle Orthosis