Solving Data Loss in Wearables with Redundant Protocols
Redundant multi-protocol transmission and local buffering eliminate wearable data gaps that threaten accurate health monitoring.
2025年浙江省科学技术进步奖参与项目公示
2025年浙江省科学技术进步奖参与项目公示 根据《2025浙江省科学技术进步奖推荐工作通知》有关要求,现对我院作为参与单位申报2025年浙江省科学技术进步奖的项目“椎间盘退变颈腰痛的疾病负担、发病机理和新型防治体系构建和推广”成果内容予以公示,公示期为2026年06月09日至2026年06月15日(7天),公示期内如对公示内容有异议,请您于2026年06月15日前向爱智康(杭州)科技有限公司办公室反映。 联系人及联系电话:联系人:刘晨旭13848254287 附件:“椎间盘退变颈腰痛的疾病负担、发病机理和新型防治体系构建和推广”项目公示材料 爱智康(杭州)科技有限公司 2026年06月09日
Wearable Tech for Spine Health: Scaling Solutions
Wearable sensors, AI, and RTM scale spine care beyond clinics—enabling real-time posture monitoring, remote rehab, and prevention.
Predictive Analytics in Chronic Disease Care
Machine learning, wearables, and EHR integration enable early detection and proactive management of chronic diseases.
Real-Time Alerts for Chronic Disease: How It Works
AI-powered wearables monitor vitals 24/7 and send severity-coded alerts to patients and clinicians for proactive chronic care.
How Predictive Health Algorithms Transform Spine Care
AI predictive algorithms combine imaging, wearables, and patient-reported data to personalize spine diagnosis, triage, and recovery monitoring.
Blockchain in Telemedicine: Securing Patient Data
Blockchain secures telemedicine with decentralized records, smart-contract consent, and immutable audit trails.
Multi-Sensor Wearables: Data Integration Explained
How multi-sensor wearables fuse accelerometer, PPG, IMU and AI data to deliver accurate posture, vitals, and chronic care insights.
Why OTA Updates Matter for Chronic Disease Monitoring
OTA updates keep chronic-monitoring devices accurate, secure, and compliant while adding features and delivering critical security patches.
ISO 13485 for Spine Health Monitoring Devices
How ISO 13485:2016 affects spine monitoring devices—hardware (radiation-free) vs AI systems, risk management, validation, and post-market controls.