Difference between revisions of "Cyber-Physical Systems Laboratory"

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== Updates ==
 
== Updates ==
  
 
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* <span style="color:#008000"> '''[Paper]''' </span> [http://www.cse.wustl.edu/~lu/papers/rtss15.pdf <u>Schedulability Analysis under Graph Routing in WirelessHART Networks</u>] [RTSS'15]
 
* <span style="color:#008000"> '''[Paper]''' </span> [http://www.cse.wustl.edu/~lu/papers/cloud15-rtopenstack.pdf <u>RT-OpenStack: CPU Resource Management for Real-Time Cloud Computing</u>] [CLOUD'15]
 
* <span style="color:#008000"> '''[Paper]''' </span> [http://www.cse.wustl.edu/~lu/papers/cloud15-rtopenstack.pdf <u>RT-OpenStack: CPU Resource Management for Real-Time Cloud Computing</u>] [CLOUD'15]
 
* <span style="color:#990000"> '''[Software]''' </span> [https://nees.org/groups/wireless_control_benchmark <u>Benchmark Problem in Active Structural Control with Wireless Sensor Network</u>]
 
* <span style="color:#990000"> '''[Software]''' </span> [https://nees.org/groups/wireless_control_benchmark <u>Benchmark Problem in Active Structural Control with Wireless Sensor Network</u>]

Revision as of 21:38, 22 September 2015

The 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