Engineering at the Chinese University of Hong Kong Fosters Innovation through International Research Collaborations
Brown University is making significant strides in the realm of engineering and technology, with several professors leading groundbreaking research projects.
In the Department of Mechanical and Automation Engineering, Prof. Yun-hui LIU is spearheading the development of 3D Vision-Driven Robots. Meanwhile, Prof. Wei REN is working on an Intelligent Laser Sensing System for the Energy Industry. Prof. Samuel AU is leading the development of the Accessible Surgical Robotic System, and Prof. Ka-wai KWOK is leading the development of Evolving Interventional Endoscopy - an Endoluminal Robotic Platform for early-stage cancer resection and defect closure.
Elsewhere in the same department, Prof. Yi-chun LU is responsible for the creation of Low-Cost and Intrinsically-Safe Polysulfide Redox Flow Batteries for Long-Duration Energy Storage. These batteries could revolutionise energy storage solutions for various applications.
In the Department of Information Engineering, Prof. Raymond YEUNG is leading the development of Network Coding for Next Generation Networks. This research aims to improve the efficiency and reliability of data transmission in modern networks.
Prof. Hon-ki TSANG leads the development of Silicon Photonic Integrated Circuits for Sensing and Optical Interconnects in the Department of Electronic Engineering. These circuits could potentially enhance the speed and efficiency of data transmission in various technologies.
In the School of Biomedical Sciences and Department of Biomedical Engineering, Prof. Barbara CHAN is responsible for the creation of Personalised Advanced Therapeutic Products (ATPs) - Engineered Osteochondral Tissue (eOCT) for cartilage regeneration therapy. This research could pave the way for more effective treatments for joint-related diseases.
In a remarkable collaboration across teams at Brown University, engineers have developed the accelo-hat - a wearable technology for brain injury analysis. This device measures and analyses acceleration impacts on the brain from various activities, such as heading a soccer ball or high-speed motorboat rides. The accelo-hat has evolved into a sophisticated tool that can simulate and evaluate injury severity in scenarios too dangerous for human testing, such as falls or plane crashes. It provides valuable data for creating safer designs for aircraft seats by evaluating the effects of modifications like seat height or cushioning. The technology is backed by complex algorithms that decode accelerometer data to translate raw numbers into meaningful insights on how forces impact the human body.
This technology represents a significant advancement in engineering and applied technology research at Brown University, addressing real-world safety challenges in a collaborative effort across teams combining expertise in engineering, mathematics, and biomechanics. These innovations underscore Brown University's commitment to pushing the boundaries of engineering and technology to address pressing global challenges.
In the Department of Mechanical and Automation Engineering, Prof. Yi-chun LU is working on the development of Low-Cost and Intrinsically-Safe Polysulfide Redox Flow Batteries, which could be a significant advancement in the field of technology for energy storage. Meanwhile, in the Department of Information Engineering, Prof. Raymond YEUNG is leading the development of Network Coding for Next Generation Networks, which is an application of science and technology aiming to improve data transmission efficiency and reliability.
