👃 AI Meets Wearables: A new mini olfactory sensor ring tracks skin VOCs to monitor metabolism & diet in real time. Non-invasive, AI-driven (axial-attention LSTM), validated by GC-MS. Precision nutrition, chronic disease prevention, and research reimagined. #WearableSensors #MetabolismMonitoring

Wearable Inertial Sensors Market Growth Opportunities and Future Outlook 2026 www.marketresearchfuture.com/reports/wear...
#InertialSensors #WearableSensors #MotionTracking #SensorTechnology #IoTDevices #SmartWearables #ElectronicsTech #SensorMarket

Sports Technology Market to Reach USD 35,756.53 Billion by 2035 The Sports Technology Market is evolving rapidly as digital innovation reshapes athletic performance, fan engagement, and sports management. The market was valued at USD 20,906.

(31) Sports Technology Market to Reach USD 35,756.53 Billion by 2035 | LinkedIn www.linkedin.com/pulse/sports...
#SportsTechnology #PerformanceAnalytics #WearableSensors #DigitalSports #EmergingMarkets #SmartTraining #SportsInnovation

Sports Technology Market New Opportunities in the Semiconductor Sector, 2026 www.marketresearchfuture.com/reports/spor...
#SportsTechnology #PerformanceAnalytics #WearableSensors #EmergingMarkets #DigitalSports #SmartTraining #TechInSports

Body Worn Temperature Sensor Market Size & Growth 2035 Body Worn Temperature Sensor Market is expected to grow USD 940.81 Billion at a 23.8% CAGR by 2035, Global Body Worn Temperature Sensor Industry Analysis by Temperature Measurement Type, Device Type, ...

Body-Worn Temperature Sensor Market Trends Analysis, Sales Revenue, Competitive Landscape and Market Expansion Strategies 2035
www.marketresearchfuture.com/reports/body...

#WearableSensors #TemperatureMonitoring #HealthcareWearables #IoTDevices

Self‑recoverable porous #sensors that you can write into shape: new work in Advanced Science shows thermo‑responsive, shape‑editable porous electrodes enabling multimodal motion sensing in smart insoles, joint bands, and gloves. 🧠🦵
#WearableSensors #SmartMaterials

Prof. Inkyu Park講演会（2026/01/15） １月１５日（水）、韓国・KAISTの Prof. Inkyu Park（ wearable/flexible sensors for smart healthcare and medical applications」と題したセミナーを開催しました。 ABSTRACTSmart healthcare technology and wearable sensors revolutionize patient care by providing continuous, realtime health monitoring, enabling early detection of potential health issues. They empower individuals with actionable insights into their own health, fostering preventative care and personalized healthcare strategies. By integrating smart materials and sensors, these technologies enhance the responsiveness and efficacy of healthcare interventions.

KAISTのProf. Inkyu Parkによるウェアラブル・フレキシブルセンサの最先端研究セミナーを開催しました。
We were honored to host Prof. Inkyu Park (KAIST) for an inspiring seminar on micro/nano-enabled wearable sensors for smart healthcare.
#WearableSensors #SmartHealthcare #MEMS #FlexibleElectronics #KAIST

Check out this new study in IEEE J-BHI, "Deep Learning-Based #StrideSegmentation With #WearableSensors: Effects of Data Quantity, Sensor Location, and Task".

ieeexplore.ieee.org/document/11223746

Self-powered flexible sensors: from fundamental mechanisms toward diverse applications

Exploring self-powered #WearableSensors, this #IJEM review provides an overview of #EnergyHarvesting technologies, conversion mechanisms, structural/ material innovations, #EnergyStorage platforms, and their applications.

#OpenAccess: doi.org/10.1088/2631...

USB Devices Industry 2025–2035: Products, Connectors & Applications (CAGR 10.51%) - Industry Today Explore the USB Devices Market 2025–2035 (CAGR 10.51%). Get insights on revenue forecasts, competitive landscape, growth drivers, technological trends, connector types, applications, and regional mark...

USB Devices Industry 2025–2035: Products, Connectors & Applications (CAGR 10.51%) - Industry Today industrytoday.co.uk/electrical/u...
#UVSensors #Optoelectronics #SensorMarket #UVDetection #EnvironmentalMonitoring #SmartSensors #WearableSensors #Photonics

Did you miss our #GRAPHERGIAhub Webinar Series yesterday?⚡🌐

▶️ Catch the presentations & watch the full recording: graphergia.eu/2025/11/13/g...

Thank you to the over 50 participants who joined us to discuss about laser-induced #graphene & #MXenes for #WearableSensors

@forth-ite.bsky.social

Hydrogel fabrication techniques for advanced artificial sensory systems

Exploring fabrication methods, including photo-crosslinking, #Electrospinning, & #3DBioprinting, used to tune the mechanical & functional properties of hydrogels for developing advanced, biocompatible, and durable sensory systems. #WearableSensors

#OpenAccess: doi.org/10.1088/2631...

Most #WearableSensors can’t maintain pressure sensitivity across a wide range.

But now, #researchers have developed an MWCNT-based capacitive pressure #sensor that can address this gap!

For more updates, subscribe to our weekly emailer: ieee-sensorsalert.org

#FlexibleSensors #HealthTech

Excited to share my 1st postdoc paper! We used #WearableSensors to replicate and generalize upper limb activity performance in daily life across stroke, MSK, & other neuro conditions. Findings support activity performance is better thought of on a continuum vs categorically. doi.org/10.3390/s251...

Remote Patient Monitoring for Global Emergencies: Case Study in Patients With #covid19 Background: The #covid19 pandemic has highlighted the critical need for telehealth and remote patient monitoring in healthcare delivery. Despite the growing use of on-body wearable sensors for continuous monitoring and predicting adverse events, such as hospitalizations or falls, their widespread adoption within the healthcare ecosystem remains a significant challenge. While the pandemic has accelerated the acceptance of these technologies, achieving widespread integration requires their sustained incorporation into routine healthcare practices beyond emergency situations. In this study, we extend the application of our previously developed remote patient monitoring system, originally designed for the geriatric frail population, to #covid19 patients. Our objective is to assess whether the metrics obtained from this system, which includes physical activity and indoor localization sensors, along with vital sign monitoring, can provide additional insights into the recovery trajectory of individuals affected by #covid19. Objective: The objective of this case study is to demonstrate that remote patient monitoring systems, can be adapted to diverse patient cohorts during emergencies. We aim to illustrate the ease of deployment, particularly when these systems are already integrated into the existing healthcare ecosystem. Methods: From November 2020 to July 2021, 73 patients were recruited through the UCLA Center for Smart Health after being consented to participate in the study for two weeks. The research concentrated on an exploratory analysis, focusing on the detailed examination of characteristics and behaviors of #covid19 patients as captured by the remote patient monitoring system. We collected day-to-day changes in the following sensor measurements: daily activity, daily energy expenditure, indoor localization, Sp02, respiratory rate, heart rate, and temperature.  Results: Out of the 73 patients satisfying the inclusion criteria, 41 successfully adhered to using the monitoring technology, with only 22 providing substantial watch data (>4 hours). Among the participants, 39 used the pulse oximeter, 37 used the thermometer, and 36 utilized respiratory monitoring at night. The study demonstrated an overall increase in patients' activity levels towards the end of the study, with many beginning to leave their homes after two weeks. Additionally, respiratory rates shifted towards healthier lower levels, and oxygen saturation improved. Fatigue and headache were identified as the most prevalent symptoms, followed by cough and loss of smell. Conclusions: The conclusion highlights the critical importance of monitoring patients outside of hospital settings, especially during pandemics when patient travel to hospitals or home visits by healthcare professionals could increase the risk of disease transmission. Studies demonstrating the benefits and efficacy of remote monitoring in home settings can better prepare healthcare professionals for future pandemic events. Continuous monitoring of a wide range of patient metrics, from activities to vital signs, and integrating this data into electronic health records would not only improve accuracy and reduce the burden of data collection but also pave the way for enhanced home care, offering higher quality care at a lower cost.

JMIR Formative Res: Remote Patient Monitoring for Global Emergencies: Case Study in Patients With #covid19 #RemotePatientMonitoring #Telehealth #COVID19 #HealthcareTechnology #WearableSensors

📢 Great News for Researchers! 📢

The #BSN2025 Call for Papers & Abstracts deadline has been EXTENDED further! 🎉

You now have more time to submit your innovative work in #BodySensorNetworks, #DigitalHealth, & #WearableSensors.

New Deadline: July 11, 2025

🔗 bsn.embs.org/2025/contrib...