News Express: UM scholar gives talk on breakthroughs in flexible electromechanical transducers

新聞快訊:澳大學人分享柔性機電轉換器件新突破

 

鍾俊文
Zhong Junwen

 


澳大學人分享柔性機電轉換器件新突破

澳門大學今(26)日舉行“澳大學人研究講壇”第25講,由澳大科技學院機電工程系、人工智能與機器人研究中心助理教授鍾俊文圍繞“柔性雙向機電轉換器件及其人機交互應用”發表演說,深入探討了柔性機電技術在智能感知、可穿戴設備及微型機器人等領域的前沿應用,展現了科技創新與日常生活的深度連結。講座現場反應熱烈,亦有不少中學師生以線上形式參與。

講座中,鍾俊文介紹了其團隊在柔性雙向機電轉換器件製備技術上的突破,即通過優化器件結構,顯著提升輸出性能、環境適應性及穩定性。他亦重點講述了其研發的仿生昆蟲柔性微型機器人。該機器人結合了智能感知與運動控制,可實現地面與水面的高敏捷性運動;而基於超靈敏元件的可穿戴傳感器,能實時監測呼吸、脈搏等生理信號,並結合機器學習算法進行智能診斷。此外,鍾俊文還介紹了其團隊開發的可穿戴觸覺反饋器件陣列,該陣列可模擬手機振動模式,應用於智能盲文顯示與觸覺導航,為人機交互開拓新可能。

鍾俊文專注於柔性機電傳感器/執行器領域相關的基礎與應用研究,並在國際知名期刊發表論文超過60篇,總引用逾8,800次,並擁有1項美國專利及16項中國專利。其研究亦獲得多項基金支持,成果兼具學術價值與產業化潛力。

“澳大學人研究講壇”由澳大研究服務及知識轉移辦公室舉辦,旨在邀請傑出的澳大學人以通俗易懂的方式介紹其前沿研究成果,引導大眾和青年學生了解研究創新的社會意義和價值,以及與日常生活密切關聯的應用性。

欲瀏覽官網版可登入以下連結:
https://www.um.edu.mo/zh-hant/news-and-press-releases/press-release/detail/60712/


UM scholar gives talk on breakthroughs in flexible electromechanical transducers

The University of Macau (UM) held the 25th UM Scholar Research Forum today (26 March), featuring Zhong Junwen, assistant professor in the Department of Electromechanical Engineering of the Faculty of Science and Technology and the Centre for Artificial Intelligence and Robotics at UM. Prof Zhong delivered a talk titled ‘Flexible Electromechanical Transducers for Bi-Directional Human-Machine Interaction’ and discussed cutting-edge applications of flexible electromechanical technology in smart sensors, wearable devices, and microrobots, which highlighted the deep connection between technological innovation and everyday life. The talk attracted a full house, with many secondary school students and teachers attending online.

During the talk, Prof Zhong presented his team’s breakthroughs in the fabrication and application of flexible bi-directional electromechanical transducers. He also introduced the insect-inspired flexible microrobots that can achieve high agility on the ground and in aquatic environments, wearable smart sensors that can monitor breathing and pulse in real time and perform intelligent diagnostics, and haptic feedback actuators that can simulate mobile phone vibration patterns and be applied to smart braille and tactile navigation.

To read the news on UM’s official website, please visit the following link:
https://www.um.edu.mo/news-and-press-releases/press-release/detail/60712/