Hardware architecture and a software framework, where the combination allows software to run.
Event
ISORC 2018
IEEE 21st International Symposium on Real-Time Distributed Computing (ISORC 2018)
IEEE ISORC was founded in 1998 (with its first meeting in Kyoto, Japan) to address research into the application of real-time object-oriented distributed technology. Since then, ISORC has continually evolved to meet the latest challenges faced by researchers and practitioners in the real-time domain, with an emphasis on object-, component- and service- oriented systems and solutions..
Event
CITE 2017
The 8th International Conference on Information Technology in Education (CITE 2017)
Special tracks within the Conference on Creative Education (CCE 2017). The main objective of CITE 2017 is to provide a platform for researchers, engineers and academicians from all over the world to present their research results and development activities on Information Technology in Education.
Event
EOOLT 2017
December 1, 2017 | Munich, Germany
Many engineers rely heavily on model-based design and control of complex cyber-physical systems. Of paramount importance is the ability to capture all central aspects of such systems in the models, including the physical behavior of the system components and the architecture description of its software and hardware.
Event
ARM 2017
Adaptive and Reflective Middleware Workshop (ARM 2017)
Colocated with ACM/IFIP/USENIX Middleware 2017 Dec 11-15, 2017 in Las Vegas
The Adaptive and Reflective Middleware (ARM) workshop series started together with the ACM/IFIP/USENIX International Middleware Conference, with which it has been co-located every year since this first edition.
Submitted by Abhishek Dubey on June 20th, 2017
Event
ERTS² 2018
Embedded Real Time Software and Systems ( ERTS² 2018)
The ERTS2 congress created by the late Jean-Claude Laprie in 2002 is a unique European cross sector event on Embedded Software and Systems, a platform for top-level scientists with representatives from universities, research centres, agencies and industries. The previous editions gathered more than 100 talks, 500 participants and 60 exhibitors. ERTS2 is both:
The recent increase in the variety and usage of wearable sensing systems allows for the continuous monitoring of health and wellness of users. The output of these systems enable individuals to make changes to their personal routines in order to minimize exposures to pollutants and maintain healthy levels of exercise. Furthermore, medical practitioners are using these systems to monitor proper activity levels for rehabilitation purposes and to monitor threatening conditions such as heart arrhythmias. However, there is substantial work to be done to facilitate the processing and interpretation of such information in order to maximize impact. This proposal develops a computational framework that models the complex interactions between physiological and environmental factors contributing to an individual's health. The contributions of this award will facilitate the broad adoption of wearable sensing platforms and innovative analytical tools by individuals and medical practitioners. This award develops methodology for the estimation and prediction of physiological responses and environmental factors, with the objective of enabling users to efficiently change their behavior. To accomplish this objective, the framework will build on tools from statistical analysis, topological data analysis, optimization theory and human behavior analysis. This novel framework will not only develop new formal techniques, but it will also serve as a bridge between these cross-disciplinary fields. In particular, the proposed hierarchical computational framework has the potential of providing a trade-off between accuracy and computational flexibility based on the choice of granularity of the representation. This award will: (1) develop methodology for the concurrent representation of physiological, kinematic and environmental states for inference purposes; (2) develop techniques for mapping representations between different systems to enable information sharing; and (3) develop techniques to maximize the impact on the behavior of individuals by building on the proposed data representation. The algorithm development will be informed by integration of limitations on embedded platforms due to memory, computational and power capabilities, and transmission costs when off-board processing is required. The proposed techniques will empower users and medical practitioners to understand, analyze, and make decisions based on patterns in the data. The outcomes of this project will empower medical practitioners by providing innovative and effective tools for wearable sensing systems which enable efficient pattern identification, data representation and visualization. Besides training students directly working on this project, the data sets and algorithms developed will be incorporated into a new graduate course on computational techniques for physiological and environmental sensing. Undergraduate students will be engaged by participating in data collection experiments, REUs, and local demonstrations. Underrepresented undergraduate student communities will be exposed to the research at the national level by presenting demos at well-known diversity conferences in the STEM fields. Furthermore, K-12 local student communities will be engaged via summer workshops that will be prepared for students and educators.
Off
North Carolina State University
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National Science Foundation
Event
RTSS 2017
The 38th IEEE Real-Time Systems Symposium – RTSS 2017
Paris, France | December 5-8, 2017 | http://2017.rtss.org
Sponsored by the IEEE Computer Society Technical Committee on Real-Time Systems
Scope of the Conference
File
2017 ICUAS CFP
Submitted by Justin Bradley on January 4th, 2017
Event
ISORC 2017
20th IEEE International Symposium on Real-Time Computing (ISORC 2017)
May 16-18, 2017 | The Fields Institute, Toronto, Canada | http://isorc2017.org/
Event
ISLPED 2017
International Symposium n Low Power Electronics and Design
The International Symposium on Low Power Electronics and Design (ISLPED) is the premier forum for presentation of innovative research in all aspects of low power electronics and design, ranging from process technologies and analog/digital circuits, simulation and synthesis tools, system-level design and optimization, to system software and applications.
Topics
Specific topics include, but are not limited to, the following three main tracks and sub-areas: