Difference between revisions of "Cyber-Physical Systems Laboratory"
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== Updates == | == Updates == | ||
* <span style="color:#B22222"> '''[News]''' </span> [https://www.cse.wustl.edu/~lu/openings.html PhD Student Openings ] (9/2019) | * <span style="color:#B22222"> '''[News]''' </span> [https://www.cse.wustl.edu/~lu/openings.html PhD Student Openings ] (9/2019) | ||
| − | * <span style="color:#008000"> '''[Paper]''' </span> [https://www.cse.wustl.edu/~lu/papers/aaai20.pdf DeepAlerts: Deep Learning Based Multi-horizon Alerts for Clinical Deterioration on Oncology Hospital Wards ] [[https://aaai.org/Conferences/AAAI-20/ AAAI'20]] | + | * <span style="color:#008000"> '''[Paper]''' </span> [https://www.cse.wustl.edu/~lu/papers/aaai20.pdf DeepAlerts: Deep Learning Based Multi-horizon Alerts for Clinical Deterioration on Oncology Hospital Wards] [[https://aaai.org/Conferences/AAAI-20/ AAAI'20]] |
* <span style="color:#008000"> '''[Paper]''' </span> [https://www.cse.wustl.edu/~lu/papers/rtss19.pdf Predicting Latency Distributions of Aperiodic Time-Critical Services] [[http://2019.rtss.org/ RTSS'19]] | * <span style="color:#008000"> '''[Paper]''' </span> [https://www.cse.wustl.edu/~lu/papers/rtss19.pdf Predicting Latency Distributions of Aperiodic Time-Critical Services] [[http://2019.rtss.org/ RTSS'19]] | ||
* <span style="color:#008000"> '''[Paper]''' </span> [https://www.cse.wustl.edu/~lu/papers/health19.pdf Feasibility Study of Monitoring Deterioration of Outpatients Using Multi-modal Data Collected by Wearables] [[https://health.acm.org/ HEALTH]] | * <span style="color:#008000"> '''[Paper]''' </span> [https://www.cse.wustl.edu/~lu/papers/health19.pdf Feasibility Study of Monitoring Deterioration of Outpatients Using Multi-modal Data Collected by Wearables] [[https://health.acm.org/ HEALTH]] | ||
Revision as of 09:01, 10 January 2020
The Cyber-Physical Systems Laboratory (CPSL) at Washington University performs cutting-edge research on AI and machine learning for healthcare, mobile health, real-time systems, Internet of Things, and cyber-physical systems that cross-cut computing and other 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.
Locations
- Lab: Jolley Hall 219A
Updates
- [News] PhD Student Openings (9/2019)
- [Paper] DeepAlerts: Deep Learning Based Multi-horizon Alerts for Clinical Deterioration on Oncology Hospital Wards [AAAI'20]
- [Paper] Predicting Latency Distributions of Aperiodic Time-Critical Services [RTSS'19]
- [Paper] Feasibility Study of Monitoring Deterioration of Outpatients Using Multi-modal Data Collected by Wearables [HEALTH]
- [News] Abusayeed Saifullah became the 4th NSF CAREER Awardee among CPSL alumni (7/2019)
- [Paper] FRAME: Fault Tolerant and Real-Time Messaging for Edge Computing [ICDCS'19]
- [Talk] Dependable Industrial Internet of Things (Slides)[Keynote at CPS Week 2018]
- [Event] Dr. Chengyang Lu serving as General Chair of the first IEEE International Conference on Industrial Internet (ICII'18)
- [News] Dr. Chenyang Lu serves as Chair of IEEE Technical Committee on Real-Time Systems
- [Event] Dr. Chengyang Lu serves as IoT Chair of ACM Embedded Systems Week
- [News] Washington University in St. Louis atop the embedded and real-time systems area in the new CS Rankings
- [Event] Dr. Chengyang Lu serves as General Chair of ACM/IEEE International Conference on Internet of Things Design and Implementation(IoTDI'18)
- [Paper] Holistic Cyber-Physical Management for Dependable Wireless Control Systems [TCPS]
- [Paper] Multi-Mode Virtualization for Soft Real-Time Systems [RTAS'18]
- [News] Jing Li became the 2nd CPSL student to receive the Jonathan S. Turner Dissertation Award (2017)
- [Paper] Enabling Reliable, Asynchronous, and Bidirectional Communication in Sensor Networks over White Spaces [SenSys'17]
- [Talk] Real-Time Internet of Things [Keynote at ISORC'17]
- [Talk] Towards Real-Time Cloud Computing Uppsala University
- [Paper] Impacts of Channel Selection on Industrial Wireless Sensor-Actuator Networks [INFOCOM'17]
- [Paper] Randomized Work Stealing for Large Scale Soft Real-time Systems [RTSS'16]
- [Paper] SNOW: Sensor Network over White Spaces (Best Paper Award Nominee) [SenSys'16]
- [News] News release on recent NSF CPS grant on industrial wireless control systems (8/2016)
- [Video] Advancing Real-Time Virtualization, Cloud Computing [HEC-TV] (7/2016)
- [Talk] Dependable Wireless Control through Cyber-Physical Co-Design [EWSN'16 Keynote]
- [News] Computer Scientists to Expand Work in Real-Time Virtualization (1/2016)
- [News] Dr. Chenyang Lu named IEEE Fellow (Citation: for Contributions to Adaptive Real-Time Computing Systems) (1/2016)
- News Archive
