A router for improved fault isolation, scalability and diagnosis in CAN

Author

Obermaisser, R. ; Kammerer, R.

Author_Institution

Vienna Univ. of Technol., Vienna, Austria

fYear

2010

Firstpage

123

Lastpage

129

Abstract

Controller Area Network (CAN) provides an inexpensive and robust network technology in many application domains. However, the use of CAN is constrained by limitations with respect to fault isolation, bandwidth, wire length, namespaces and diagnosis. This paper presents a solution to overcome these limitations by replacing the CAN bus with a star topology. We introduce a CAN router that detects and isolates node failures in the value and time domain. The CAN router ensures that minimum message interarrival times are satisfied and reserves CAN identifiers for individual CAN nodes. In addition, the CAN router exploits knowledge about communication relationships for a more efficient use of communication bandwidth through multicast messaging. An implementation of the CAN router based on a Multi-Processor System-on-a-Chip (MPSoC) shows the feasibility of the proposed solution.

Keywords

controller area networks; fault diagnosis; multicast communication; multiprocessing systems; network-on-chip; telecommunication network routing; telecommunication network topology; CAN bus; CAN identifier; communication bandwidth; controller area network; fault diagnosis; fault isolation; message interarrival time; multicast messaging; multiprocessor system-on-chip; node failure detection; star topology; Automotive engineering; Bandwidth; Fault diagnosis; Hardware; Isolation technology; Network topology; Power system reliability; Robustness; Scalability; Wire;

fLanguage

English

Publisher

ieee

Conference_Titel

Industrial Informatics (INDIN), 2010 8th IEEE International Conference on

Conference_Location

Osaka

Print_ISBN

978-1-4244-7298-7

Type

conf

DOI

10.1109/INDIN.2010.5549449

Filename

5549449