5th International Symposium on Resilient Control Systems
Date: Aug 14, 2012 3:45 am – Aug 16, 2012 3:45 am
Location: Salt Lake City, Utah: Downtown Hilton
The major purpose of this symposium is to extend and endorse particular concepts that will generate novel research and codify resilience in next generation control system designs.
Statement of Themes: Energy security and sustainability are important concerns to individuals and industry alike, but even with the promise of a smart grid, increasing research will be necessary to ensure that what is achieved is more resilient in nature. As mobile and industrial robotics form an ever increasing role in both national defense and plant automation, the dependence on these systems elevates a need to ensure continued operability in spite of hazardous environments. Through appropriate sessions and presentations, the symposium will highlight resilience in light of the power system and robotics, bringing to light resilience perspectives important to these applications.
Topical Areas (including, but not limited to)
• Human Machine Interaction: cognitive modeling, machine learning, digital human modeling
• Human Systems Design: environmental configuration, tailored presentation
• Control Theory: intelligent, reconfigurable, optimal
• Control Framework: supervisory, multi-agent, distributed intelligence
• Control Security: decoys, randomization, diversity, training and cognition, decision making, measurement
• Cyber Architecture: health indicators, defense optimization
• Data Fusion: data reduction, security characterization, data diversity, anomaly detection, response prioritization
• Computational intelligence: machine learning, neural networks, fuzzy logic, evolutionary computation, Baysian belief networks
• Cyber-physical power and energy systems: Real-time communication, protection, control, resilience, reliability, sustainability, efficiency
• Robotic systems: Failure/error tolerance and recovery, adaptable/flexible architectures, multi-level/agent systems, multi-sensor fusion, tele-presence, probabilistic behaviors, performance validation/verification, communications security
Submitted by Craig Rieger
on
The major purpose of this symposium is to extend and endorse particular concepts that will generate novel research and codify resilience in next generation control system designs.
Statement of Themes: Energy security and sustainability are important concerns to individuals and industry alike, but even with the promise of a smart grid, increasing research will be necessary to ensure that what is achieved is more resilient in nature. As mobile and industrial robotics form an ever increasing role in both national defense and plant automation, the dependence on these systems elevates a need to ensure continued operability in spite of hazardous environments. Through appropriate sessions and presentations, the symposium will highlight resilience in light of the power system and robotics, bringing to light resilience perspectives important to these applications.
Topical Areas (including, but not limited to)
• Human Machine Interaction: cognitive modeling, machine learning, digital human modeling
• Human Systems Design: environmental configuration, tailored presentation
• Control Theory: intelligent, reconfigurable, optimal
• Control Framework: supervisory, multi-agent, distributed intelligence
• Control Security: decoys, randomization, diversity, training and cognition, decision making, measurement
• Cyber Architecture: health indicators, defense optimization
• Data Fusion: data reduction, security characterization, data diversity, anomaly detection, response prioritization
• Computational intelligence: machine learning, neural networks, fuzzy logic, evolutionary computation, Baysian belief networks
• Cyber-physical power and energy systems: Real-time communication, protection, control, resilience, reliability, sustainability, efficiency
• Robotic systems: Failure/error tolerance and recovery, adaptable/flexible architectures, multi-level/agent systems, multi-sensor fusion, tele-presence, probabilistic behaviors, performance validation/verification, communications security