Publisher URL: http://core.informatik.haw-hamburg.de/images/publications/papers/msks-eatts-13a.pdf
Publisher DOI: 10.1109/VNC.2013.6737589
Title: Extending IEEE 802.1 AVB with time-triggered scheduling : a simulation study of the coexistence of synchronous and asynchronous traffic
Language: English
Authors: Meyer, Philipp  
Steinbach, Till 
Korf, Franz 
Schmidt, Thomas C.  
Editor: Altinas, Onur 
Chen, Wai 
Wyglins, Alexander M. 
Grutes, Marco 
Gozalv, Javier 
Petit, Jonathan 
metadata.local.contributorCorporate.other: Institute of Electrical and Electronics Engineers 
Issue Date: 2013
Publisher: IEEE
Part of Series: 2013 IEEE Vehicular Networking Conference (VNC) : 16 - 18 December 2013, Boston, MA, USA 
Startpage: 47
Endpage: 54
Conference: IEEE Vehicular Networking Conference 2013 
Abstract: 
In-car networks based on Ethernet are expected to be the first choice for future applications in the domain of info- and entertainment. However, the full benefit of a technologically integrated in-car network will only become rewarding with an Ethernet-based backbone, unifying several automotive domains in a single infrastructure. Today, there is remarkable interest in the IEEE 802.1 Audio/Video Bridging (AVB) protocol suite, that provides end-to-end performance guarantees in Ethernet networks. But for the strict timing requirements of automotive control-traffic, these guarantees are too weak. An extension of Ethernet AVB with synchronous time-triggered traffic can overcome these limitations. In this paper, we investigate the coexistence of synchronous and asynchronous traffic by experimentally adding time-triggered messages to the credit-based shaper of AVB in a straightforward way. Based on simulations and analytical evaluations, we quantify the impact of such integration concepts for a reasonable design range. Our results demonstrate the feasibility of a shaping strategy with concurrent AVB and time-triggered message, but show a significant impact of the schedule design on the asynchronous AVB streams. Based on our findings, we provide recommendations for configurations that can improve end-to-end network performance for in-car applications by over 100%.
URI: http://hdl.handle.net/20.500.12738/1367
ISBN: 978-1-4799-2688-6
1-4799-2687-6
978-1-4799-2687-9
Institute: Department Informatik 
Fakultät Technik und Informatik 
Type: Chapter/Article (Proceedings)
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