摘要
从患者个体、康复设备与诊疗场域出发,进行基于远程智慧理念的“人、物、场”三元模式的下肢康复仪系统设计,通过远程医疗提升居家康复训练质量,用智慧医疗云平台在医患之间完成康复信息快速交互,减少患者线下频繁前往医院康复的困扰,是解决医疗资源紧缺现象的有力措施,这种“远程智慧式居家康复”为行动不便和边远地区下肢患者高质量康复提供了解决方案。本研究从下肢康复用户需求出发,建立远程监护系统模型,提出游戏式下肢居家康复的训练评价+远程评价模式,用多学科交叉的设计方法完成可穿戴设备创新,提升患者趣味式康复体验,设计实践通用型下肢康复训练穿戴式设备的方案,为构建新质远程诊疗和自主康复的服务设计提供参考与借鉴。
Starting from the patient individual,rehabilitation equipment,and medical treatment environment,this study conducts a system design for a lower limb rehabilitation device based on a triadic model of"human,object,and environment"within the framework of smart telemedicine.By enhancing the quality of home-based rehabilitation training through telemedicine and enabling rapid exchange of rehabilitation information between doctors and patients via a smart medical cloud platform,it reduces the need for patients to frequently visit hospitals for rehabilitation.This approach serves as an effective measure to address the shortage of medical resources.The"remote intelligent home rehabilitation"model provides a solution for high-quality rehabilitation of lower limb patients with mobility limitations and those in remote areas.Focusing on the needs of lower limb rehabilitation users,this research establishes a remote monitoring system model,proposes a"training evaluation+remote evaluation"model for game-based home rehabilitation of the lower limbs,and utilizes multidisciplinary design methods to innovate wearable devices.These efforts aim to enhance patients'engaging rehabilitation experience while providing a general-purpose wearable solution for lower limb training,providing references for constructing new remote diagnosis/treatment and independent rehabilitation service systems.
作者
蒋鹏
秦桂祥
胡浩伟
付业君
JIANG Peng;QIN Guixiang;HU Haowei;FU Yejun(Southwest Minzu University,610041 Chengdu Sichuan;Changchun University of Technology,130012 Changchun Jilin;Dalian Jiaotong University,116028 Dalian Liaoning)
出处
《设计艺术研究》
2025年第4期81-86,共6页
Design Research
基金
西南民族大学中央高校基本科研专项(2023SYB09)
教育部供需对接就业育人项目(2023122700951)。
关键词
穿戴式设备设计
下肢康复
智慧医疗
远程医疗
wearable device design
lower limb rehabilitation
smart telemedicine
telemedicine
