Cyber-Physical Systems Laboratory
From Cyber-Physical Systems Laboratory
Jump to navigationJump to searchThe Cyber-Physical Systems Laboratory (CPSL) at Washington University in St. Louis performs cutting-edge research on real-time systems, wireless sensor networks, embedded systems and cyber-physical systems that cross-cut computing, networking and other engineering disciplines.
What is Cyber-Physical Systems (CPS)? CPS is a holistic design methodology that co-designs the cyber and physical aspects of networked embedded systems. By breaking the barrier between cyber and physical designs, CPS will result in drastic improvement to networked embedded systems and new systems that we cannot build today. This talk elaborates on our perspective on CPS.
Updates
- [News] Real-Time Virtualization Software to Enable Embedded Systems Integration [Press Release]
- [News] RT-Xen: Real-Time Virtualization in Xen [Xen Blog]
- [Talk] Wireless Clinical Monitoring at Scale [DGIF Distinguished Lecture]
- [News] Q&A: Melding Software Models with Sensor Networks Could Save Lives} [IEEE Spectrum
- [Event] Chenyang Lu serving as Program Chair of ACM Conference on Embedded Networked Sensor Systems (SenSys'14)
- [Event] Chenyang Lu chaired IEEE Real-Time Systems Symposium (RTSS'13)
- [Event] Chenyang Lu named Area Editor of the new IEEE Internet of Things Journal
- [Paper] Self-Adapting MAC Layer for Wireless Sensor Networks [RTSS'13]
- [Paper] Cache-Aware Compositional Analysis of Real-Time Multicore Virtualization Platforms [RTSS'13]
- [Grant] Real-Time Wireless Sensor-Actuator Networks [NSF NeTS]
- [Grant] Safety-Feature Modeling and Adaptive Resource Management for Mixed-Criticality Cyber-Physical Systems [NSF CPS]
- [Grant] Integrated Real-Time Clinical Deterioration Prediction for Hospitalized Patients and Outpatients [NSF SCH]
- [Grant] Real-Time Scheduling of Parallel Tasks [NSF XPS]
- [News] Featured in IEEE Spectrum Podcast on Smart Bridges [IEEE Spectrum]
- [Grant] Theory and Virtualization Platform for Compositional Real-Time Systems [ONR]
- [News] Green Rehab Project Promotes a More Sustainable University [Press Release]
- [Talk] Real-Time Wireless Control Networks for Cyber-Physical Systems [SIES'13 Keynote]
- [Paper] Analysis of Global EDF for Parallel Tasks [ECRTS'13] Outstanding Paper Award
- [News] Washington Bridge Collapse Could Be a Wake-up Call
- [News] Matthew Roblez: Structural Engineering Saves Lives
- [News] Engineering Professor Working to Help Bridges Survive Natural Disaster
- [Paper] Prioritizing Local Inter-Domain Communication in Xen [IWQoS'13]
- [Talk] Energy-Efficient Low Power Listening for Wireless Sensor Networks in Noisy Environments [IPSN'13]
- [Talk] Towards Real-Time Clouds for Cyber-Physical Systems [NSF Cloud Computing for CPS Workshop]
- [Talk] Introduction to Control Theory and Its Application to Feedback Computing [CPSWeek'13]
- [Event] Chenyang Lu Served as General Chair of International Conference on Cyber-Physical Systems (ICCPS'13)
- [Paper] Energy-Efficient Low Power Listening for Wireless Sensor Networks in Noisy Environments [IPSN'13]
- [Paper] Realistic Case Studies of Wireless Structural Control [ICCPS'13]
- [Paper] A Real-Time Scheduling Service for Parallel Tasks [RTAS'13]
- [Talk] Real-Time Wireless Control Networks: Challenges and Directions [NITRD Clockwork Workshop]
- [News] Wireless Clinical Monitoring project featured in a special report in IEEE Signal Processing Magazine
- [News] Wireless Network in Hospital Monitors Vital Signs [Press Release]
- News Archive