Dear colleagues, Sorry for a possible cross-posting Please consider to submit your publication to special session “Biologically-Inspired Cognitive Architectures in Dependable Cyber-Physical Systems” on IEEE INDIN 2016
EXTENDED (FINAL) DEADLINE FEBRUARY 29, 2016 <<
LINK FOR SUBMISSION: http://vps.ieee-ies.org/submit-cgi-bin/authorlogin.pl?event=INDIN16 <<
Choose “SS Biologically Inspired Cognitive Architectures in Dependable Cyber-Physical Systems” as Technical Track when submitting your contribution. <<
IEEE INTERNATIONAL CONFERENCE ON INDUSTRIAL INFORMATICS INDIN’16 18-21 JULY 2016, FUTUROSCOPE-POITIERS, FRANCE Special Session on “Biologically-Inspired Cognitive Architectures in Dependable Cyber-Physical Systems” Organized by IEEE Industrial Electronic Society. Technical Committee on Industrial Informatics. Sub-Committee on Bio-inspired industrial informatics Principal Organizer: Prof. Evgeny Osipov, Luleå University of Technology ———————————————————— INDIN 2016 (http://ieee-indin2016.sciencesconf.org/) is an IEEE International Conference on Industrial Informatics will be held on 18-23 July 2016, Futuroscope-Poitiers, France. The conference is sponsored by IEEE Industrial Electronics Society and Pprime Institute, Futuroscope-Poitiers, France. The proceedings are indexed by the Web of Science. Note that good quality papers may be considered for publication in IEEE Transactions on Industrial Informatics subject to further rounds of review. ———————————————————— Call for Papers Traditional computing architectures are designed to produce reliable systems with specifiable behaviours and properties. Their major strengths come from easiness of inspection, maintenance, interoperability, and reuse. However, all modern computing systems operate based on strict assumptions about their environments, thus are too inflexible to react to changing demands. In critical environments such as industrial automation, smart grids and dependable cyber-physical systems in general, this inflexibility results in serious in many cases life-critical errors. Alternative computing architectures, which greatly borrow their functionality from the versatility and efficiency of systems developed by nature, are known as biologically-inspired cognitive computing architectures (BICA). Traditionally these architectures find their applications in areas like natural language processing, image and speech processing. Very little attention so far was paid at exploring their applicability in the context of dependable industrial systems. This special session solicits contributions exploring diverse applications of BICA architectures for enriching intelligent functionality of industrial systems. Topics of interest include, but are not limited to: • Associative memory based reasoning • Combined machine learning / BICA solutions • Neural networks in cognitive computing architectures • Cognitive architectures for continuous signal processing • Cognitive fault detection and system identification • Cognitive and hybrid automatic control • Cognitive wireless communications • Symbiosis of cognitive and Von-Neumann computing architectures • Novel application areas and use-cases for BICA architectures in CPS and IoT. • BICA empowered software engineering • Spiking Neural Networks interfacing BICA architectures. Industrial usecases. -- Prof. Evgeny Osipov Dependable Communication and Computation Systems Department of Computer Science Electrical and Space Engineering Luleå University of Technology Tel. +46 920 49 15 78 Web. https://sites.google.com/site/evgenyosipov/