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A Rapid Innovation Framework for Connected Mobility Applications

High Performance Center Connected Secure Systems. Fraunhofer AISEC, EMFT & ESK
 
: Pöhn, Daniela; Wessel, Sascha; Fischer, Felix; Braunsdorf, Oliver; Wenninger, Franz; Seydel, Dominique; Weiß, Gereon; Roscher, Karsten
: Freese-Wagner, Manuela
: Fraunhofer-Einrichtung für Angewandte und Integrierte Sicherheit -AISEC-, Garching; Fraunhofer-Einrichtung für Mikrosysteme und Festkörper-Technologien -EMFT-, München; Fraunhofer-Institut für Eingebettete Systeme und Kommunikationstechnik -ESK-, München

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Volltext urn:nbn:de:0011-n-4874898 (1.5 MByte PDF)
MD5 Fingerprint: a5f8140b5dd6673fbca759b69bac37c1
Erstellt am: 28.8.2018


München: Fraunhofer ESK, 2018, 35 S.
Englisch
Studie, Elektronische Publikation
Fraunhofer EMFT ()
Fraunhofer AISEC ()
connected mobility; connected mobility application; traffic safety; traffic efficency; prototype; validation; testing; Vehicle-to-X; V2X; Rapid Innovation Tool Kit; testbed

Abstract
Connected Mobility Applications help to continuously improve traffic safety and efficiency. Today, much time and effort have to be invested to bring an idea into a safe prototype and to finally launch a reliable product.Software development tools have to adapt to these requirements. They have to support a rapid and continuous development process, that allows to test and validate the distributed application as one overall system. When developing cooperative applications, a higher design complexity has to be handled, as components are distributed over heterogeneous systems that interact with a varying timing behavior and less data confidence. Also, test and validation become more complex. Our Innovation Framework is intended to rapidly bring an idea for a connected application into a prototype so the investment risk for innovative applications is reduced. In this whitepaper we describe the approach of a Rapid InnovationTool Kit that is intended to speed up the development process for connected mobility applications. Thereby, a safe and secure prototype is available at an early development phase to gain experience within field tests that help to rapidly improve the intended application. Our software tool kit is able to find deviations from the specified behaviour and also it can instantly locate and identify erroneous functions within distributed systems. Extensive security tests can then be applied on the implemented application to ensure a secure operation. Another use case for the described testbed is to evaluate communication technologies and to find the most suitable transmission technology for a certain application. For example, short range communication with the 802.11p WLAN technology or the upcoming LTE enhancement LTE-V2X are comparable within specific scenarios. This evaluation can help to reduce the investment risk for the deployment of connected applications.

: http://publica.fraunhofer.de/dokumente/N-487489.html