AssistOn-Arm

Upper Body Rehabilitation Exoskeleton

First rehab exo with explainable ARTIFICIAL INTELLIGENCE

Adult & pediatrics care on the SAME device

First rehab exo with HOME CARE privilege

1st robot to deliver ALL ESSENTIAL THERAPIES required by human shoulder complex

Self-aligning ergonomics with SHORTEST PATIENT ADJUSTMENT times

Eliminate the physical burden

AssistOn-Arm is a self-aligning powered exoskeleton for robot-assisted upper extremity rehabilitation. AssistOn-Arm can eliminate the physical burden of repetitive movement therapy, enable safe and versatile training with increased intensity, allow quantitative measurements of patient progress, and increase the reliability, accuracy, effectiveness via evidence-based personalized therapies.

Provides an ideal match

Automatically aligning its joint axes, AssistOn-Arm can provide an ideal match with patient movements, guaranteeing ergonomics and comfort throughout whole human workspace. It can restrict compensatory movements and provide targeted joint movements. Additionally, its adjustment free design takes only few seconds to don, significantly reducing setup times.

Comprehensive set of upper-extremity exercises

AssistOn-Arm can deliver a comprehensive set of upper-extremity exercises, including glenohumeral mobilization, in addition to typical reaching exercises. Consequently, it extends the types of therapies that can be administered using upper-extremity exoskeletons.

Take control of the speed of exercises

The controllers of AssistOn-Arm ensure the coordination of and the synchronization among various joint movements, while letting the patients take control of the speed of exercises. Furthermore, assistance forces can be provided as-needed to enable patients to complete their tasks, while maximally engaging them.

AI component

AssistOn-Arm features an AI component, for personalized evidenced-based physical therapies. It consults therapists via an intelligent, interactive human-computer interface, guides therapists and patients by warnings or recommendations based on patient specific measurements.