Volume : I, Issue : II, October - 2012

Reliability in Automotive Embedded System using CAN

Balachandra Pattanaik, Dr S. Chandrasekaran

Abstract :

The reliability enhancement models for fault tolerant systems work is to propose automotive fault tolerant system models with static and dynamic redundancies based on the services required in the applications to enhance the overall system reliability without affecting system performance, correctness and safety. Embedded systems must meet increasingly high expectations of safety and high reliability Improvement by enhancing performance with system–level analysis. Modelling is needed not only for predictability and comparability when partitioning end–to–end functions at design time levels of reliability. CAN Controllers are used in automotive for fault tolerant embedded system. The existing reliability enhancement models are emphasizing various redundancy techniques both in hardware and software without focusing a formal way of recovery time minimization from the affected or degraded states in the automotive systems. The proposed model minimizes the number of errors that occur and hence the reliability of the system is enhanced. A component–based model fault tolerance with error detection has been developed. This model focuses on the automotive services to achieve a secure fault tolerant system.  

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Article: Download PDF   DOI : 10.36106/ijar  

Cite This Article:

Balachandra Pattanaik, Dr S.Chandrasekaran Reliability in Automotive Embedded System using CAN Indian Journal of Applied Research, Vol.II, Issue.I October 2012

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