Comparative Reliability Analysis for Single and Dual CAN (FD) Systems

2022 International Conference on Applied Electronics (AE) Pub Date : 2022-09-06 DOI:10.1109/AE54730.2022.9920078

Andrea Reindl, Tobias Langer, H. Meier, M. Niemetz

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Abstract

Modern cyber-physical systems, such as autonomous vehicles, advanced driver assistance systems, automation systems and battery management systems, result in extended communication requirements regarding the reliability and the availability. The Controller Area Network (CAN) is a broadcast-based protocol which is still used as a standard for serial communication between individual microcontrollers due to its reliability and low power consumption. In addition, it provides mechanisms for detecting transmission errors and retransmitting messages in the event of an error. The enhancement CAN Flexible Data-Rate (CAN FD) offers increased data rates and transmission rates in order to meet the data throughput requirements. In this paper, the mechanisms for reliable data transmission in a CAN FD network are analyzed. To improve reliability, a second identical CAN-FD network is added to the system, using the additional CAN interface already available on common microcontrollers. The redundant communication network is examined in terms of failure rates and the mean time to failure. The reliability over the operation time is calculated for the single and the redundant version of the CAN FD network using the failure rate limits of the ASIL levels.

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单、双CAN (FD)系统可靠性比较分析

现代网络物理系统，如自动驾驶汽车、先进的驾驶员辅助系统、自动化系统和电池管理系统，导致了对可靠性和可用性的扩展通信要求。控制器局域网(CAN)是一种基于广播的协议，由于其可靠性和低功耗，它仍然被用作单个微控制器之间串行通信的标准。此外，它还提供了检测传输错误和在发生错误时重新传输消息的机制。增强的CAN灵活数据速率(CAN FD)提供了更高的数据速率和传输速率，以满足数据吞吐量要求。本文分析了CAN - FD网络中数据可靠传输的机制。为了提高可靠性，第二个相同的CAN- fd网络被添加到系统中，使用普通微控制器上已有的额外CAN接口。对冗余通信网络的故障率和平均无故障时间进行了分析。使用ASIL级别的故障率限制，计算了CAN FD网络的单个和冗余版本在运行时间内的可靠性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 International Conference on Applied Electronics (AE)

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