Monitoring and control of cyber-physical systems.
Event
AMC 2020 - Postponed
POSTPONED TO TENTATIVE DATES 14-16.09.2020 DUE TO COVID-19 PANDEMIC
Event
ACM HSCC 2019
22nd ACM International Conference on Hybrid Systems: Computation and Control (HSCC)
Part of CPS-IoT Week 2019
Scope
Submitted by Amy Karns on October 8th, 2018
Event
ICCPS 2019
The 10th ACM/IEEE International Conference on Cyber-Physical Systems (CM/IEEE ICCPS 2019)
Overview: As digital computing and communication become faster, cheaper, and available in packages that are smaller and use less power, these capabilities are increasingly embedded in many objects and structures in the physical environment. Cyber-physical systems (CPS) are physical and engineered systems whose operations are monitored, coordinated, controlled, and integrated by computing and communication.
Event
ICIT 2019
20th IEEE International Conference on Industrial Technology (ICIT 2019)
The IEEE International Conference on Industrial Technology is one of the flagship conferences of the IEEE Industrial Electronics Society. This prestigious event is held every year in a different part of the world. The aim of this conference is to provide a forum for the presentation and discussion of emerging industrial technologies and for professional interactions. Additionally, it serves as a conduit for channelling advanced technology to the regional industry.
Event
ICINCO 2018
15th International Conference on Informatics in Control, Automation and Robotics
The purpose of the 15th International Conference on Informatics in Control, Automation and Robotics (ICINCO) is to bring together researchers, engineers and practitioners interested in the application of informatics to Control, Automation and Robotics. Four simultaneous tracks will be held, covering Intelligent Control Systems, Optimization, Robotics, Automation, Signal Processing, Sensors, Systems Modelling and Control, and Industrial Informatics.
Colonel John Boyd’s Observe/Orient/Decide/Act Loop (“OODA loop”) is a widely adopted decision-making analytical framework.
We combine the OODA loop with the NSA Methodology for Adversary Obstruction to create a new cyber‑defense model.
Event
NSV 2018
11th International Workshop on Numerical Software Verification (NSV 2018)
Federated Logic Conference (FLoC) 2018
Event
SelPhyS 2018
Third Workshop on Self-Awareness in Cyber-Physical Systemsp
The concept of self-awareness has become a hot research topic in a variety of disciplines such as robotics, artificial intelligence, control theory, networked systems, and so on. Its applicability has been explored in various application domains such as automotive, military, consumer electronics, industrial control, medical equipment, and so forth.
Every year around 30,000 fatalities and 2.2 million injuries happen on US roads. The problem is compounded with huge economic losses due to traffic congestions. Advances in Cooperative Vehicle Efficiency and Safety (CVES) systems promise to significantly reduce the human and economic cost of transportation. However, large scale deployment of such systems is impeded by significant technical and scientific gaps, especially when it comes to achieving real-time and high accuracy situational awareness for cooperating vehicles. This CAREER project aims at closing these gaps through developing fundamental information networking methodologies for coordinated control of automated systems. These methodologies will be based on the innovative concept of modeled knowledge propagation. In addition, the educational component of this project integrates interdisciplinary Cyber-Physical Systems (CPS) subjects on the design of automated networked systems into graduate and undergraduate training modules.
For robust operation, CVES systems require each vehicle to have reliable real-time awareness of the state of other coordinated vehicles. This project addresses the critical need for robust control-oriented situational awareness by developing a multi-resolution information networking methodology that is model- and context-aware. The approach is to develop the novel concepts of model communication and its derived multi-resolution networking. Context-aware model-communication relies on transmission and synchronization of models (e.g., stochastic hybrid system structures and parameters) instead of raw measurements. This allows for high fidelity synchronization of dynamical models of CVES over networks. Multi-resolution networking concept is enabled through scalable representations of models. Multi resolution models allow in-network adaptation of model fidelity to available network resources. The result is robustness of CVES to network service variability.
The successful deployment of CVES, even partially, will provide significant societal benefits through reduced traffic accidents and improved efficiency. This project will enable large scale CVES deployment by addressing its scalability challenge. In addition, methodologies developed in this project will be crucial to emerging autonomous vehicles, which are also expected to coordinate their actions over communication networks. The fundamental research outcomes on knowledge propagation through network synchronization of dynamical models will be broadly applicable in other CPS domains such as smart grid. The educational component of this project will target training of CPS researchers and engineers on subjects in intelligent transportation and energy systems.
Off
University of Central Florida
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National Science Foundation
Submitted by Amy Karns on December 8th, 2017