Shaping Smarter Ecosystems: Next-Generation MEMS Sensing for Industry, Healthcare, and Cities

Session details:

Advanced MEMS sensor technologies are revolutionizing intelligent ecosystems by delivering precise, reliable, and scalable sensing solutions across industrial automation, medical devices, and smart city infrastructures. This work delves into the integration of next-generation MEMS sensing technologies with advanced sensor fusion algorithms, artificial intelligence (AI), and machine learning (ML) to drive intelligent ecosystems in industrial, healthcare, and smart city domains. By combining inertial and pressure sensing modalities within compact MEMS devices, real-time multi-sensor data fusion enables enhanced accuracy and context awareness. Embedded low-power compute platforms within MEMS facilitate on-device AI/ML inference, optimizing data processing and reducing latency. Seamless connectivity protocols enable distributed sensor networks to communicate efficiently across complex environments, supporting scalable and resilient system architectures. Application-specific implementations demonstrate how predictive analytics and adaptive control empower industrial automation, wearable health monitoring, and smart infrastructure management. This approach highlights the critical role of tight integration between sensing, computation, and communication technologies in shaping future-ready intelligent ecosystems.