Submitted by Anonymous on Thu, 02/05/2015 - 1:01pm
INDIN 2015 IEEE International Conference on Industrial Informatics
22-24 July 2015, Cambridge, UK
Sponsored by: IEEE Industrial Electronics Society and Anglia Ruskin University, Cambridge, UK
Technical co-sponsor: Institution of Engineering and Technology, UK
The INDIN Conference is co-organised by Anglia Ruskin University and EEE Industrial Electronics Society and technically co-sponsored by the Institute of Engineering and Technology.
Submitted by Anonymous on Thu, 02/05/2015 - 12:57pm
INDIN'15 extended paper submission deadline: 17th February 2015
The 2015 edition of the IEEE International Conference on Industrial Informatics (INDIN) will be hosted in the historical city of Cambridge, UK, on July 22-24, 2015. The conference provides a forum for industry experts, researchers and academics to gather together to share ideas and experiences surrounding frontier technologies, breakthroughs, innovative solutions and research results, as well as initiatives related to industrial informatics and their applications.
Submitted by Anonymous on Wed, 01/28/2015 - 2:43pm
Due to multiple requests, we have extended the RSN2015 workshop deadline to Feb/2/2015. The 2nd Int. Workshop on Robotic Sensor Networks part of CPSWEEK
Many cyber-physical systems (CPS) deployed in a number of applications ranging from airport security systems and transportation systems to health-care and manufacturing rely on a wide variety of sensors for prediction and control. In many of these systems, acquisition of information requires the deployment and activation of physical sensors, which can result in increased expense or delay.
Buildings in the U.S. contribute to 39% of energy use, consume approximately 70% of the electricity, and account for 39% of CO2 emissions. Hence, developing green building architec- tures is an extremely critical component in energy sustainability. The investigators will develop a unified analytical approach for green building design that comprehensively manages energy sustainability by taking into account the complex interactions between these systems of systems, providing a high degree of security, agility and robust to extreme events.
This research is focused on the co-design of platform and control of Cyber-Physical Systems (CPS). Limited and shared resources among several control and non-control applications in CPS introduce delays in transmitted messages, which in turn can degrade system performance or even cause instabilities. While a worst-case delay based design can accommodate such delays, they often are pessimistic and lead to an overdesign as worst case delays happen infrequently.
Cyber--physical systems (CPS) have become increasingly prevalent in applications including health care, energy, and transportation. The tight coupling between cyber and physical components of CPS implies that cyber--attacks can degrade the safety, availability, and performance of physical components. The cyber components also introduce multiple entry points to the CPS, lowering the cost of attacks compared to purely physical systems.
