Coordinating individual systems to function dynamically and simultaneously in all situations.
Event
RTSOPS 2016
RTSOPS 2016: 7th International Real-Time Scheduling Open Problems Seminar in conjunction with the 28th Euromicro Conference on Real-Time Systems (ECRTS 2016)
Submitted by Anonymous on February 15th, 2016
The 35th International Conference on Computer Safety, Reliability and Security (SAFECOMP2016) ABOUT SAFECOMP
Submitted by Anonymous on February 3rd, 2016
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WCET 2016
16th International Workshop on Worst-Case Execution Time Analysis (WCET 2016) Toulouse, France | 5th July 2016 | http://wcet2016.compute.dtu.dk                in conjunction with the Euromicro Conference on Real-Time Systems (ECRTS) WCET 2016 is kindly supported by TACLe (www.tacle.eu), an European COST-Action on Timing Analysis on Code-Level. GOALS AND TOPICS
Submitted by Anonymous on January 28th, 2016
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WOCO 2016
1st IFAC/IFIP Workshop on Computers and Control (WOCO 2016) Sponsored and Organised by IFAC TC3.1 Technical Committee on Computers for Control Co-Sponsored by IFIP WG 10.5 Design and Engineering of Electronic Systems WOCO 2016 is the first IFAC Workshop on Computer and Control following previous workshops organized by IFAC Technical Committee 3.3 as Workshop on Real-Time Programming (WRTP) and Algorithms and Architectures for Real-Time Control (AARTC) that were successfully organised during 30 editions.
Submitted by Anonymous on January 28th, 2016
Event
MECO’2016
5th Mediterranean Conference on Embedded Computing  (MECO’2016) Bar, Montenegro  | June 12-16, 2016 | http://embeddedcomputing.me
Submitted by Anonymous on January 28th, 2016
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ICTAC 2016
CALL FOR PAPERS
Submitted by Anonymous on January 28th, 2016
Event
IFSM16
Third International Workshop on Information Fusion for Smart Mobility Solutions (IFSMS15) In conjunction with the 7th International Conference on Emerging Ubiquitous Systems and Pervasive Networks EUSPN 2016.
Submitted by Anonymous on January 27th, 2016
Event
INDIN 2016
INDIN 2016 IEEE International Conference on Industrial Informatics Sponsored by: IEEE Industrial Electronics Society and Pprime Institute, Futuroscope-Poitiers, France INDIN2016  is 14th International Conference on Industrial Informatics sponsored by the Industrial Electronics Society of the IEEE. The  premier  conference  series  presenting  the  state  of  the  art  and  future  perspectives  of industrial information  technologies.
Submitted by Anonymous on December 23rd, 2015
This project explores balancing performance considerations and power consumption in cyber-physical systems, through algorithms that switch among different modes of operation (e.g., low-power/high-power, on/off, or mobile/static) in response to environmental conditions. The main theoretical contribution is a computational, hybrid optimal control framework that is connected to a number of relevant target applications where physical modeling, control design, and software architectures all constitute important components. The fundamental research in this program advances state-of-the-art along four different dimensions, namely (1) real-time, hybrid optimal control algorithms for power management, (2) power-management in mobile sensor networks, (3) distributed power-aware architectures for infrastructure management, and (4) power-management in embedded multi-core processors. The expected outcome, which is to enable low-power devices to be deployed in a more effective manner, has implications on a number of application domains, including distributed sensor and communication networks, and intelligent and efficient buildings. The team represents both a research university (Georgia Institute of Technology) and an undergraduate teaching university (York College of Pennsylvania) in order to ensure that the educational components are far-reaching and cut across traditional educational boundaries. The project involves novel, inductive-based learning modules, where graduate students team with undergraduate researchers.
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Hampden-Sydney College
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National Science Foundation
Patrick Martin Submitted by Patrick Martin on December 22nd, 2015
A wide range of health outcomes is affected by air pollution. In March 2014 the World Health Organization (WHO) released a report that in 2012 alone, a staggering 7 million people died as a result of air pollution exposure, one in eight of total global deaths. A major component of this pollution is airborne particulate matter, with approximately 50 million Americans have allergic diseases. This project will develop and field the first integrated IoT in-situ sensor package tracking pollution and pollen to provide airborne particulate mapping for Chattanooga. Longer term it is hoped that the data collection approach and initial visualization tools developed in Chattanooga can be used to support a nationwide, open access dissemination platform on the order of Google's StreetView, but called PollutionView. Such scaling of the project's pilot results through a PollutionView tool will contribute significantly to a transformation of the Environmental Public Health field in the United States. The project involves real-time big data analysis at a fine-grain geographic level. This will involve trades with sensing and computing especially if the sensor package is to be deployed at scale. The project will help determine if real-time allergen collection and visualization can improve health and wellness. Thus, this project will combine Cyber Physical Systems (CPS) and gigabit networks to address major health concerns due to air pollution. A working demonstration of this project will be presented during the Global City Teams meeting in June 2015 with an update in June 2016. Airborne particulate matter particularly affects the citizens of Chattanooga, TN. The objectives of this project are twofold: first, to develop and deploy an array of Internet of Things (IoT) in-situ sensors within Chattanooga capable of comprehensively characterizing air quality in real time, including location, temperature, pressure, humidity, the abundance of 6 criterion pollutants (O3, CO, NO, NO2, SO2, and H2S), and the abundance of airborne particulates (10-40 µm), both pollen-sized and smaller PM2.5 (<2.5 µm) particles; and second, to have a pollen validation campaign by deploying an in-situ pollen air sampler in Chattanooga to identify specific pollen types.
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University of Texas at Dallas
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National Science Foundation
David Lary Submitted by David Lary on December 22nd, 2015
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