Beiträge in Tagungsbänden:

P. Palensky, S. Vielguth, F. Nadler, M. Heiss, A. Oertl, M. Sturm:
"Platforms for industrial cyber-physical systems integration: contradicting requirements as drivers for innovation";
in: "2015 Workshop on Modeling and Simulation of Cyber-Physical Energy Systems (MSCPES), CPS Week, IEEE, At Seattle", Catalog Number: CFP1594U-PRT; IEEE Conference Publication (Hrg.); self-published, Seattle, 2015, ISBN: 978-1-4799-7357-6, S. 9 - 16.

A variety of businesses are experiencing a boost in
innovation due to cyber-physical systems. Consumer
electronics, the health sector, the energy sector, or the
automotive industry are examples of domains where the design
and operations of highly integrated embedded systems are
closer to physical processes than ever. New methods for
describing, verifying, designing, and operating such integrated
and often autonomously acting systems are required [1].
However, the biggest challenge likely lies in between these
domains: the integration of distributed, multi-domain cyberphysical
systems [2].
The combination and integration of diverse CPSs lead to an
entirely new magnitude of applications and design challenges
regarding the resulting CPS. An autonomous, electric vehicle
may serve as an illustrative example: In order to perform a
smooth, safe, comfortable, and efficient shopping tour, various
CPSs that were previously operated independently need to
The steering and navigation controls,
The charging electronics,
Vehicle-to-infrastructure, vehicle-to-vehicle, and
vehicle-to-pedestrian communications,
The charging station directory,

cyber-physical systems, IT platforms, software integration, distributed systems, complexity management

Erstellt aus der Publikationsdatenbank des AIT Austrian Institute of Technology.