The Controller Area Network (CAN) is a widely used real-time network in automotive domain. We identify that the existing response-time analysis for messages in CAN with some of the connected nodes implementing priority queues while others implementing FIFO queues does not support the analysis of mixed messages. The existing analysis assumes that a message is queued for transmission either periodically or sporadically. However, a message can also be queued both periodically and sporadically using a mixed transmission mode implemented by several high-level protocols for CAN used in the industry today. We extend the existing analysis which is generally applicable to any high-level protocol for CAN (with priority- and FIFO-queued nodes) that us...
The response time distribution (RTD) for messages on the controller area network (CAN) represents th...
Controller Area Network (CAN) is used extensively in automotive applications, with in excess of 400 ...
Controller Area Network (CAN) is used extensively in automotive applications, with in excess of 400 ...
The existing response-time analysis of Controller Area Network (CAN) can compute the response times ...
The existing response-time analysis for messages in Controller Area Network (CAN) with CAN controlle...
The existing response-time analysis for messages in Controller Area Network (CAN) with controllers i...
The existing offset-based response-time analysis for mixed messages in Controller Area Network (CAN)...
The existing offset-aware response-time analysis of Controller Area Network (CAN) for mixed messages...
The existing response-time analysis for Controller Area Network (CAN) does not support mixed message...
The existing tools for the response-time analysis of Controller Area Network (CAN) support only peri...
Controller Area Network (CAN) is widely used in automotive applications. Existing schedulability ana...
This paper revisits basic message response time analy-sis of controller area network (CAN). We show ...
Controller area network (CAN) enables communication of electronic control units (ECUs) via messages ...
Controller Area Network (CAN) is a fieldbus network suitable for small-scale Distributed Computer ...
The response time of messages is an important parameter for the design of in-vehicle networks based ...
The response time distribution (RTD) for messages on the controller area network (CAN) represents th...
Controller Area Network (CAN) is used extensively in automotive applications, with in excess of 400 ...
Controller Area Network (CAN) is used extensively in automotive applications, with in excess of 400 ...
The existing response-time analysis of Controller Area Network (CAN) can compute the response times ...
The existing response-time analysis for messages in Controller Area Network (CAN) with CAN controlle...
The existing response-time analysis for messages in Controller Area Network (CAN) with controllers i...
The existing offset-based response-time analysis for mixed messages in Controller Area Network (CAN)...
The existing offset-aware response-time analysis of Controller Area Network (CAN) for mixed messages...
The existing response-time analysis for Controller Area Network (CAN) does not support mixed message...
The existing tools for the response-time analysis of Controller Area Network (CAN) support only peri...
Controller Area Network (CAN) is widely used in automotive applications. Existing schedulability ana...
This paper revisits basic message response time analy-sis of controller area network (CAN). We show ...
Controller area network (CAN) enables communication of electronic control units (ECUs) via messages ...
Controller Area Network (CAN) is a fieldbus network suitable for small-scale Distributed Computer ...
The response time of messages is an important parameter for the design of in-vehicle networks based ...
The response time distribution (RTD) for messages on the controller area network (CAN) represents th...
Controller Area Network (CAN) is used extensively in automotive applications, with in excess of 400 ...
Controller Area Network (CAN) is used extensively in automotive applications, with in excess of 400 ...