SmartX Innovation Hub’s Post

Smart Wearables Go Flexible: Breakthrough in Stretchable Transistors Enhances Health Tracking! Researchers at the University of Hong Kong have developed a novel wearable device using stretchable organic electrochemical transistors (OECTs) which combine electronic and ionic charge carriers enabling in-sensor edge computing for applications like smartwatches and health monitors. Unlike traditional rigid neuromorphic transistors these flexible devices can function effectively in humid environments making them ideal for medical and wearable technologies. The team created an AI-powered system capable of real-time decision-making by training machine learning algorithms on biomedical datasets while addressing challenges like data quality and motion artifacts. #WearableTech #Smartwatches #HealthTech #InSensorComputing #EdgeComputing #OrganicTransistors #OECT #AIinHealthcare #BiomedicalEngineering #NeuromorphicComputing #StretchableElectronics #MachineLearning #DigitalHealth #MedicalDevices #WearableDevices #HealthMonitoring #Innovation #Research #TechForGood #FutureOfHealthcare

Very impressive. Few questions; 1. What is the range to access these real-time medical analytics thru system? 2. What is the validity of this device once placed? Just thinking from Aviation perspective if this could be used for Captain (in-flight) to monitor their basic health performance and also could be used if there is any medical situation in-flight with passengers then it can be diagnosed by ground medical team to guide in-flight crew.

🎉 Exciting news from Quasistatics! They have been awarded a generous $863,501.0 from the National Science Foundation (NSF) under the National Science Foundation subagency. This award is part of the Small Business Innovation Research Program Phase I Action. 🔬 Quasistatics is set to revolutionize the Internet of Bodies (IoB) market with their groundbreaking project. They aim to develop the world's first high-bandwidth data network through the human body, enabling ultra-low-power, physically-secure video transfer. This innovation will pave the way for new applications in wearables, human augmentation, in-sensor analytics, and physiological monitoring, potentially unlocking multi-billion-dollar market opportunities in biomedical and consumer electronics. 📅 The project will span 1.92 years, starting on September 1, 2024, and concluding on August 31, 2026. Kudos to Quasistatics for pushing the boundaries of technology and innovation! #SBIR #STTR #Innovation #IoB #WearableTech #AugmentedReality

Top 10 Emerging Technologies Report from the World Economic Forum has highlighted the impact of flexible batteries on the advancement of miniaturization of wearable medical devices and sensors, which when associated with Artificial Intelligence (AI) is creating the next major wave of innovation and connectivity.

From Bangalore's biosolutions boom and Seoul's quantum communication technologies to Boston's AI-based health solutions and Munich's SpaceTech industry. Did you get the latest tech trends from around the world? If not, here's your chance. Our innovation centres have created 7 reports on some of the most emerging trends in Silicon Valley, Boston, Munich, Tel Aviv, Bangalore, Shanghai, and Seoul. Each report offers an introduction, an evaluation of the potential impact, and a brief analysis of how the local innovation ecosystem aligns with Danish stakeholders’ interests. Space technology by Innovation Centre Denmark - Munich Biosolutions by Innovation Centre Denmark Bangalore, Quantum communication by Innovation Centre Denmark Seoul AI in health by Innovation Centre Denmark Boston Longevity by Innovation Centre Denmark Silicon Valley Smart wearable devices by Innovation Centre Denmark, Shanghai Artificial General Intelligence by Innovation Centre Denmark Tel Aviv Get an overview below and find the full trend-reports on our media partner TechSavvy - Danmarks største startup-medie's website. #greentransition #lifescience #technology

Smart Wearables Go Flexible: Breakthrough in Stretchable Transistors Enhances Health Tracking! Researchers at the University of Hong Kong have developed a novel wearable device using stretchable organic electrochemical transistors (OECTs) which combine electronic and ionic charge carriers enabling in-sensor edge computing for applications like smartwatches and health monitors. Unlike traditional rigid neuromorphic transistors these flexible devices can function effectively in humid environments making them ideal for medical and wearable technologies. The team created an AI-powered system capable of real-time decision-making by training machine learning algorithms on biomedical datasets while addressing challenges like data quality and motion artifacts. #WearableTech #Smartwatches #HealthTech #InSensorComputing #EdgeComputing #OrganicTransistors #OECT #AIinHealthcare #BiomedicalEngineering #NeuromorphicComputing #StretchableElectronics #MachineLearning #DigitalHealth #MedicalDevices #WearableDevices #HealthMonitoring #Innovation #Research #TechForGood #FutureOfHealthcare

Interesting Advancement in Biomaterial Science and Semiconductor Technology!

With GenAI taking the center stage of the Digital Transformation, Innovation is inevitable. With these amazing electronic tattoos, Life Sciences and Healthcare can take a paradigm shift on how Patient care and Step-Down care can be offered in a next level. This can help the Logistics and Supply chain industries to enable autonomous Stock-Check, Put-away, aisle assignment and what not? The possibilities are enormous. Amazing Innovation(s) as always. #Temus, #Innovation, #Wearables, #SupplyChain, #Logistics, #healthcare, #lifesciences

My insights on 2023 and beyond (3/5) We can announce 100 MW pilot lines. Incredibly high efficiencies. And a bright future. But as long as any Perovskites cell degrades faster than the usually accepted degradation of a PV module's performances, there will be no business case at all. As I mentioned several times, please send me a perovskites modules (high or low band gap, tandem or not, transparent or not) to be tested independently and I will start believing the hype. Research and industry have different timelines and research is currently the field in which investments should be concentrated in order to deliver a workable technology option involving perovskites. Prospects are great with regard to efficiencies and material consumption, but real industrialization (except for some niche markets such as wearable PV) is still far away.

Imperceptible sensors made from 'electronic spider silk' can be printed directly on human skin A remarkable new technology, inspired by nature and capable of overcoming some of the inherent challenges facing wearable tech. We know that the data being generated from smart watch style tech is pretty unreliable and should only be treated as guidance. However, when tech is being used to detect medical conditions, the accuracy and dependability of the data becomes a more serious challenge. This innovation, in theory at least, may offer a way around some of these challenges.