by Zhensheng Guo, Dirk Zeckzer, Peter Liggesmeyer, Oliver Mäckel
Abstract:
This paper presents a case study for identifying security-safety requirements by using safety analysis techniques. In order to construct distributed software-intensive safety-critical systems, it is crucial to identify not only the safety requirements, but also the security requirements simultaneously, due to the fact that security attacks on the communication channels could cause safety consequences, such as damage to properties or even loss of human lives. Security-safety requirements are proposed for addressing the requirement that describes the safety, security requirements and the influence of the security attacks on safety requirements. Although many safety and security analyses techniques are available for deriving the security-safety requirements separately, no effective approach exists that uses an identical model for identifying integrated security and safety requirements. In this paper, the procedures and lessons learned for deriving integrated security-safety requirements using one identical model that is established by safety analysis techniques are presented. The results from this case study show that the safety analysis techniques are applicable for determining integrated requirements for describing the behavior of an outdoor robot.
Reference:
Z. Guo et al., "Identification of Security-Safety Requirements for the Outdoor Robot RAVON Using Safety Analysis Techniques", in Software Engineering Advances (ICSEA), 2010 Fifth International Conference on, IEEE, pp. 508-513.
Bibtex Entry:
@INPROCEEDINGS{Guo2010,
author = {Zhensheng Guo and Dirk Zeckzer and Peter Liggesmeyer and Oliver Mäckel},
title = {Identification of Security-Safety Requirements for the Outdoor Robot
RAVON Using Safety Analysis Techniques},
booktitle = {Software Engineering Advances (ICSEA), 2010 Fifth International Conference
on},
year = {2010},
pages = {508-513},
publisher = {IEEE},
abstract = {This paper presents a case study for identifying security-safety requirements
by using safety analysis techniques. In order to construct distributed
software-intensive safety-critical systems, it is crucial to identify
not only the safety requirements, but also the security requirements
simultaneously, due to the fact that security attacks on the communication
channels could cause safety consequences, such as damage to properties
or even loss of human lives. Security-safety requirements are proposed
for addressing the requirement that describes the safety, security
requirements and the influence of the security attacks on safety
requirements. Although many safety and security analyses techniques
are available for deriving the security-safety requirements separately,
no effective approach exists that uses an identical model for identifying
integrated security and safety requirements. In this paper, the procedures
and lessons learned for deriving integrated security-safety requirements
using one identical model that is established by safety analysis
techniques are presented. The results from this case study show that
the safety analysis techniques are applicable for determining integrated
requirements for describing the behavior of an outdoor robot.},
doi = {10.1109/ICSEA.2010.86},
isbn = {978-1-4244-7788-3},
keywords = {distributed software intensive safety critical system;integrated security
safety requirement;outdoor robot RAVON;robust autonomous vehicle
for off-road navigation;safety analysis technique;security safety
requirement;robots;safety-critical software;systems analysis;telerobotics;}
}