Browsing by Author "Batur, Ahmet"
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Book Part Citation Count: Batur, Ahmet; Schmidt, Klaus Werner; Schmidt, Ece Guran, "Improved load distribution for controller area network", 2017 25th Signal Processing And Communications Applications Conference (SIU), (2017).Improved load distribution for controller area network(IEEE, 2017) Batur, Ahmet; Schmidt, Klaus Werner; Schmidt, Ece GüranThe main requirement for the design of the controller are network (CAN) is to guarantee that each message response time is smaller than their specified deadline. In practical in-vehicle applications, messages on CAN are released with offsets in order to avoid message bursts that lead to undesirably large response times. In this paper, new algorithms for the choice of suitable message offsets are developed and it is shown that these algorithms outperform existing algorithms.Conference Object Citation Count: A. Batur et al., "Improved load distribution for controller area network," 2017 25th Signal Processing and Communications Applications Conference (SIU) , Antalya, Turkey, 2017.Improved load distribution for controller area network(IEEE, 2017) Batur, Ahmet; Schmidt, Klaus Werner; Güran Schmidt, EceConference Object Citation Count: Batur, Ahmet; Schmidt, Klaus Werner; Schmidt, Ece Guran, "Offset assignment on controller area network: improved algorithms and computational evaluation", 2017 12th IEEE International Symposium On Industrial Embedded Systems (SIES), pp.82-90, (2017).Offset assignment on controller area network: improved algorithms and computational evaluation(IEEE, 2017) Batur, Ahmet; Schmidt, Klaus Werner; Schmidt, Ece GüranThe basic requirement for the design of the Controller Area Network (CAN) for in-vehicle communication is to guarantee that the worst-case response time (WCRT) of each message is smaller than their specified deadline. In addition, it is desired to achieve small WCRTs that leave sufficient slack to the message deadline. In order to address the specified objectives, the idea of offset scheduling has been introduced. In this setting, messages on CAN are released with offsets in order to avoid message bursts that lead to undesirably large response times. In order to use offset scheduling efficiently, it is required to assign a suitable offset to each message. To this end, a load distribution (LD) algorithm is proposed in the existing literature. The main contribution of this paper is the development of new algorithms for offset assignment on CAN. Evaluating different example scenarios, the paper shows that the proposed algorithms outperform the existing LD algorithm in most of the cases.
