香港城市大学青年院士于欣格:Wearable Electronics for Human machine interaction and Healthcare 用于人机交互和健康医疗的可穿戴电子

来源:amjs澳金沙门欢迎您发布时间:2024-11-05访问量:40

报告时间:20241124日(周日),1430-1630

报告地点:上海理工大学光电大楼1042

报告题目:Wearable Electronics for Human machine interaction and Healthcare

邀请人:韩三灿副教授

Abstract:

Soft bio-integrated electronics have attracted great attentions due to the advantages of soft, lightweight, ultrathin architecture, and stretchable/bendable, thus has the potential to apply in various areas, especially in the field of biomedical engineering. By engineering the classes of materials processing and devices integration, the mechanical properties of the flexible electronics can well match the soft biological tissues to enable measuring bio signals and monitoring human body health. We present materials, device structures, power delivery strategies and communication schemes as the basis for novel soft bio-integrated electronics. For instance, we will discuss a wireless, battery-free platform of electronic systems and haptic interfaces capable of softly laminating onto the skin to communicate information via spatio-temporally programmable patterns of localized mechanical vibrations. The resulting technology, which we refer as epidermal VR, creates many opportunities where the skin provides an electronically programmable communication and sensory input channel to the body, as demonstrated through example applications in social media/personal engagement, prosthetic control/feedback and gaming/entertainment. Demonstrations will include human machine interface, healthcare monitoring, VR and many others.

摘要:

开发基于柔性电子的和人体的感知与交互技术在生物医疗、健康、传感等诸多领域上有着非常重要的意义,因此也是柔性电子技术研究的重中之中。目前全球的研究成果集中在柔性电子的传感技术上,而柔性电子的信息反馈的研究却相对匮乏。其中主要原因之一是柔性信息反馈信息反馈技术依赖的执行器件相较于传感器件,在尺寸和重量以及功耗上均较大。但是信息反馈技术在柔性电子的交互和感知上是不可缺少的一环。例如,柔性电子在通过佩戴的方式可以在人体上收集健康生理信号的变化。同时,收集到的健康信号通过采样处理可以及时分析出佩戴者的健康状况以及潜在疾病发作发现,进而通过如声音、压力等物理刺激等信息反馈及时告知用户。通常我们也称这种技术为人机和脑机交互,其也在医疗健康、培训、社交媒体以及娱乐等诸多领域中有都有着重要的意义。本报告将涉及柔性电子皮肤在人机交互、脑机界面、健康监测、医疗和VR领域的应用。

Bio: Xinge Yu is currently an Member of the Hong Kong Young Academy of Sciences, Associate Director for Institute of Digital Medicine,  Hong Kong Centre for Cerebro-cardiovascular Health Engineering, and Associate Director of the CAS-CityU Joint Lab on Robotics. Dr Yu is the recipient of RGC Research Fellow, Innovators under 35 China (MIT Technology Review), NSFC Excellent Young Scientist Grant (Hong Kong & Macao), New Innovator of IEEE NanoMed, MINE Young Scientist Award, Gold Medal in the Inventions Geneva, CityU Outstanding Research Award, Stanford's top 2% most highly cited scientists etc. Xinge Yu’s research group is focusing on skin-integrated electronics and systems for VR and biomedical applications. Dr. Yu is the Associate Editor and Editor Boards over 10 journals, such as Microsystem & NanoEngineering, Bio-Design and Manufacturing, IEEE Open Journal of Nanotechnology, etc. He has published 190 papers in Nature, Nature Materials, Nature Biomedical Engineering, Nature Machine Intelligence, Nature Communications, Science Advances etc., and 50 patents filed/granted.

个人简介:于欣格,香港青年科学院院士,香港城大数字医学院副院长,香港心脑血管健康工程研究中心副主任,香港城大-中科院机器人联合实验室副主任。2023年获评香港RGC Research Fellow。优秀青年科学基金(港澳)、《麻省理工科技评论》创新35人、IEEE纳米医学发明家、MINE青年科学家、日内瓦国际发明展金奖等奖项获得者。研究方向为新型柔性电子在生物医疗领域以及智能触觉VR中的应用。《Microsystems & Nanoengineering》《Bio-Design and Manufacturing》《IEEE Open Journal of Nanotechnology》等10余部期刊副主编及编委。斯坦福top 2%高被引学者,在《Nature》、《Nature Materials》、《Nature Biomedical Engineering》、《Nature Machine Intelligence》《Nature Electronics》《Nature Communications》《Science Advances》等期刊发表论文190余篇,申请/授权美国专利50余项。

返回原图
/