HONG KONG, Nov. 13, 2025 /PRNewswire/ — In the most recent episode of ‘Tech For Good’, NCS anchor and correspondent Kristie Lu Stout meets young innovators who are pushing the boundaries of sports science and engineering, designing cutting-edge technology that might someday redefine how athletes practice, compete, and keep secure.
NCS first visits the University of Hong Kong (HKU), the place scholar Jan Wong Ho Wang and his workforce have meticulously constructed an electrical race automobile from scratch that can compete at an upcoming “Formula Student” competitors in China. Under the steerage of educational advisor Dr. Match Ko and with Jason Chu Yan Kiu main aerodynamics, the workforce has developed a novel Electrical Control Unit that can optimize the automobile’s total racing performance whereas specifically designed essential safety options guard in opposition to potential accidents and mishaps.
Across the globe, breakthroughs in athlete safety are taking form on the Virginia Tech Helmet Lab. Led by Professor Steve Rowson, the lab, which started testing helmets in 2009, has expanded its scope from American soccer to a wide selection of sports and occupational head safety gear. Illustrating this variety, PhD scholar Caitlyn Jung‘s analysis is concentrated on youngsters’ bicycle helmets, whereas grasp’s college students Andrew Calis and Katie Metrey are testing youth hockey helmets and the consequences of lacrosse stick impacts on to the pinnacle, respectively. Their work makes use of superior sensors to measure affect forces, offering an in depth, public score system (one to 5 stars) that goes past customary pass-fail certifications, driving producers to prioritize safety.
Finally, NCS travels to the picturesque English countryside, to the University of Bath, the place PhD scholar Mike Muckelt is a part of a workforce revolutionizing the research of biomechanics within the gruelling winter sport of skeleton racing. Working with Senior Lecturer Dr. Steffi Colyer, the workforce developed a novel markerless movement seize system. This non-invasive technology makes use of specialised cameras to seize the athletes’ actions at 200 frames per second throughout push-starts, figuring out physique landmarks with out the necessity for conventional sensors or physique fits. This knowledge helps optimize performance by analyzing the inherent asymmetry of the game, with future purposes extending to different sports like tennis and badminton, and even healthcare for medical gait evaluation and rehabilitation. Mike will apply what he is realized from this trackside tech as a coach for Great Britain’s skeleton workforce on the 2026 Winter Olympics.