The response time of messages is an important parameter for the design of in-vehicle networks based on the controller area network (CAN). The message transmission on CAN is affected by several non-deterministic factors such as stuff bits that are added to CAN frames depending on the message payload or changing phases among the asynchronous CAN nodes because of clock drifts. The resulting probabilistic nature of message response times on CAN is captured by the response time distribution (RTD) that quantifies the probability of experiencing each possible response time of a CAN message. This paper proposes an original method for the exact RTD computation for each message on CAN, taking into account bit stuffing and clock drifts among CAN node...
The existing response-time analysis for messages in Controller Area Network (CAN) with CAN controlle...
This research details methods to improve upon current worst-case message response time analysis of C...
The main requirement for the design of the controller are network (CAN) is to guarantee that each me...
The response time distribution (RTD) for messages on the controller area network (CAN) represents th...
The Controller Area Network (CAN) is the most widely-used in-vehicle communication bus in the automo...
The existing response-time analysis of Controller Area Network (CAN) can compute the response times ...
This paper revisits basic message response time analy-sis of controller area network (CAN). We show ...
The Controller Area Network (CAN) is a widely used real-time network in automotive domain. We identi...
Abstract: The response time distributions of the frames sent on a Controller Area Network (CAN) bus ...
The existing tools for the response-time analysis of Controller Area Network (CAN) support only peri...
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 response-time analysis for Controller Area Network (CAN) does not support mixed message...
The existing offset-aware response-time analysis of Controller Area Network (CAN) for mixed messages...
Many methods to calculate message latencies for Controller Area Network (CAN) have previously been p...
The existing response-time analysis for messages in Controller Area Network (CAN) with CAN controlle...
This research details methods to improve upon current worst-case message response time analysis of C...
The main requirement for the design of the controller are network (CAN) is to guarantee that each me...
The response time distribution (RTD) for messages on the controller area network (CAN) represents th...
The Controller Area Network (CAN) is the most widely-used in-vehicle communication bus in the automo...
The existing response-time analysis of Controller Area Network (CAN) can compute the response times ...
This paper revisits basic message response time analy-sis of controller area network (CAN). We show ...
The Controller Area Network (CAN) is a widely used real-time network in automotive domain. We identi...
Abstract: The response time distributions of the frames sent on a Controller Area Network (CAN) bus ...
The existing tools for the response-time analysis of Controller Area Network (CAN) support only peri...
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 response-time analysis for Controller Area Network (CAN) does not support mixed message...
The existing offset-aware response-time analysis of Controller Area Network (CAN) for mixed messages...
Many methods to calculate message latencies for Controller Area Network (CAN) have previously been p...
The existing response-time analysis for messages in Controller Area Network (CAN) with CAN controlle...
This research details methods to improve upon current worst-case message response time analysis of C...
The main requirement for the design of the controller are network (CAN) is to guarantee that each me...