Co-Walker

الوظيفة التي يقوم بها

This product is a lightweight, powered flexible exoskeleton device based on multi-sensory interaction. It helps patients walk, climb slopes, and navigate stairs with greater confidence, thereby enhancing their self-assurance in daily life.

مصدر إلهامك

With the accelerating global aging process and the increasing incidence of stroke, the demand for rehabilitation assistance for individuals with motor impairments has become increasingly urgent. Traditional walking aids suffer from poor adaptability and a lack of emotional interaction, making it difficult to meet the rehabilitation needs of stroke patients and the elderly. Exoskeleton robots have begun to be used in stroke rehabilitation. However, most current devices are large-scale walking aids primarily used in hospitals, lacking personalized, home-based, lightweight, and emotionally intelligent walking products.

كيفية العمل

This design is based on the background of "smart health and elderly care," focusing on the principles of multi-sensory interaction and lightweight power design. Starting from three aspects—behavioral support, emotional support, and expanding social connections—it proposes a wearable exoskeleton system for stroke patients and the elderly in daily scenarios, aiming to enhance rehabilitation efficiency and user experience through technological innovation.

عملية التصميم

First, we conducted research on the lower limb functional and emotional needs of hemiplegic patients and the elderly, analyzed their acceptance of smart products, and compared existing lower limb exoskeleton products and lightweight power technologies. Second, we studied multi-sensory interaction modes such as light effects, touch, voice, and gestures, and designed an exoskeleton interaction system based on touch sensors, improving the ease of use for elderly users, especially in blind operation scenarios, and enhancing the coordination between human, machine, and environment. Third, we carried out research on the mechanical structure of lightweight power exoskeleton assistive mechanisms and human-machine comfort, making it more suitable for home rehabilitation environments and meeting the needs of daily personal wear. Finally, we completed the design and application of the multi-sensory interaction lightweight power walking exoskeleton, integrating it from aspects such as appearance, structure, and circuitry.

ما الذي يميُّز تصميمك؟

This exoskeleton design integrates intelligent technology, improving the human-machine interaction experience for lower limb walking exoskeletons. It meets the needs for lightweight rehabilitation training and assisted walking in daily life scenarios, filling a gap in the current market. It also drives the evolution of exoskeletons from "passive assistance" to "active rehabilitation," contributing to the development of the smart health and elderly care ecosystem.

الخطط المستقبلية

It is hoped that this design, in line with future trends in intelligent healthcare and the human-machine symbiosis model, will enable lightweight power-assisted exoskeletons to possess good scalability and forward-looking potential.

الجوائز