From Safety Analyses to Experimental Validation of Automotive Embedded Systems

Author

Pintard, Ludovic ; Fabre, Jean-Charles ; Leeman, Michel ; Kanoun, Karama ; Roy, Matthieu

Author_Institution

LAAS, Toulouse, France

fYear

2014

fDate

18-21 Nov. 2014

Firstpage

125

Lastpage

134

Abstract

Automotive embedded systems are becoming increasingly complex. Therefore verification activities are paramount to ensure safety. ISO 26262 is the first standard specifically dedicated to automotive safety systems. This standard requires introducing fault injection (FI) from the very early phases of the development process. Our work aims at developing an approach that will help integrate FI in the whole development process in a continuous way, from system requirements to the verification and validation phase. In this paper, we concentrate on exploring the benefits of safety analyses for experimental validation of the system. We propose an analogy between FI during the pre-implementation phase with safety analyses that are of common use during system design. We finally illustrate this approach on a case study from the automotive domain.

Keywords

ISO standards; automobiles; automotive electrics; automotive electronics; embedded systems; road safety; software fault tolerance; FI; ISO 26262; automotive domain; automotive embedded systems; automotive safety systems; experimental validation; fault injection; preimplementation phase; safety analyses; system design; validation phase; verification activities; verification phase; Analytical models; Automotive engineering; Fault diagnosis; Hardware; Safety; Software; Standards; FMECA; ISO 26262 standard; Safety; automotive embedded systems; safety analysis; system validation;

fLanguage

English

Publisher

ieee

Conference_Titel

Dependable Computing (PRDC), 2014 IEEE 20th Pacific Rim International Symposium on

Conference_Location

Singapore

Print_ISBN

978-1-4799-6473-4

Type

conf

DOI

10.1109/PRDC.2014.23

Filename

6974779