Desynchronizing streams of frames through the means of offsets has today become common practice in automotive CAN networks. This is because this traffic shaping strategy is very beneficial in terms of reducing response times especially at high load levels. However, to the best of our knowledge, there is no result available in the literature that allows the response times of frames with offsets to be calculated for CAN. In this paper, we address this shortcoming of existing CAN schedulability analysis, and propose an extendible framework built upon the trans-action model to derive worst-case response times (WCRT) on CAN. As will be shown in the experiments performed on realistic automotive networks, explicitly integrating offsets in the anal...
Controller Area Network (CAN) is used extensively in automotive applications, with in excess of 400 ...
The response time of messages is an important parameter for the design of in-vehicle networks based ...
Abstract: The response time distributions of the frames sent on a Controller Area Network (CAN) bus ...
The existing response-time analysis for Controller Area Network (CAN) does not support mixed message...
Abstract: With the increasing amount of electronics, making best usage of the bandwidth becomes of p...
The basic requirement for the design of the Controller Area Network (CAN) for in-vehicle communicati...
The Controller Area Network (CAN) is the most widely-used in-vehicle communication bus in the automo...
The existing offset-based response-time analysis for mixed messages in Controller Area Network (CAN)...
International audienceRésumé With the increasing amount of electronics, making best usage of the ban...
The existing offset-aware response-time analysis of Controller Area Network (CAN) for mixed messages...
International audienceWith the always increasing use of electronics, best using the bandwidth is of ...
This research details methods to improve upon current worst-case message response time analysis of C...
The existing tools for the response-time analysis of Controller Area Network (CAN) support only peri...
Controller Area Network (CAN) is used extensively in automotive applications, with in excess of 400 ...
This paper revisits basic message response time analy-sis of controller area network (CAN). We show ...
Controller Area Network (CAN) is used extensively in automotive applications, with in excess of 400 ...
The response time of messages is an important parameter for the design of in-vehicle networks based ...
Abstract: The response time distributions of the frames sent on a Controller Area Network (CAN) bus ...
The existing response-time analysis for Controller Area Network (CAN) does not support mixed message...
Abstract: With the increasing amount of electronics, making best usage of the bandwidth becomes of p...
The basic requirement for the design of the Controller Area Network (CAN) for in-vehicle communicati...
The Controller Area Network (CAN) is the most widely-used in-vehicle communication bus in the automo...
The existing offset-based response-time analysis for mixed messages in Controller Area Network (CAN)...
International audienceRésumé With the increasing amount of electronics, making best usage of the ban...
The existing offset-aware response-time analysis of Controller Area Network (CAN) for mixed messages...
International audienceWith the always increasing use of electronics, best using the bandwidth is of ...
This research details methods to improve upon current worst-case message response time analysis of C...
The existing tools for the response-time analysis of Controller Area Network (CAN) support only peri...
Controller Area Network (CAN) is used extensively in automotive applications, with in excess of 400 ...
This paper revisits basic message response time analy-sis of controller area network (CAN). We show ...
Controller Area Network (CAN) is used extensively in automotive applications, with in excess of 400 ...
The response time of messages is an important parameter for the design of in-vehicle networks based ...
Abstract: The response time distributions of the frames sent on a Controller Area Network (CAN) bus ...