Publication detail

Towards a Unified Security/Safety Framework - A Design Approach to Embedded System Applications

ŠVÉDA, M. VRBA, R.

Original Title

Towards a Unified Security/Safety Framework - A Design Approach to Embedded System Applications

English Title

Towards a Unified Security/Safety Framework - A Design Approach to Embedded System Applications

Type

conference paper

Language

en

Original Abstract

This paper presents a safety and security-based approach to networked embedded system design that offers reusable design patterns for various domain-dedicated applications. After introducing proper terminology, it deals with industrial, sensor-based applications development support aiming at distributed components interconnected by wired Internet and/or wireless sensor networks. The paper presents a dependability-driven approach to embedded networks design for a class of Internet-based applications. It discusses an abstract framework stemming from embedded system networking technologies using wired and wireless LANs, and from the IEEE 1451.1 smart transducer interface standard supporting client-server and publish-subscribe communication patterns with group messaging based on IP multicast that mediate safe and secure access to smart sensors through Internet and Zigbee. The case study demonstrates how clients can access groups of wireless smart pressure and temperature sensors and safety valves through Internet effectively using developed system architecture, which respects prescribed requirements for application dependent safety and security.

English abstract

This paper presents a safety and security-based approach to networked embedded system design that offers reusable design patterns for various domain-dedicated applications. After introducing proper terminology, it deals with industrial, sensor-based applications development support aiming at distributed components interconnected by wired Internet and/or wireless sensor networks. The paper presents a dependability-driven approach to embedded networks design for a class of Internet-based applications. It discusses an abstract framework stemming from embedded system networking technologies using wired and wireless LANs, and from the IEEE 1451.1 smart transducer interface standard supporting client-server and publish-subscribe communication patterns with group messaging based on IP multicast that mediate safe and secure access to smart sensors through Internet and Zigbee. The case study demonstrates how clients can access groups of wireless smart pressure and temperature sensors and safety valves through Internet effectively using developed system architecture, which respects prescribed requirements for application dependent safety and security.

Keywords

Embedded software, security, safety

RIV year

2007

Released

02.08.2007

Publisher

Institute for Systems and Technologies of Information, Control and Communication

Location

Barcelona

ISBN

978-989-8111-06-7

Book

Proceedings of the International Conference on Software and Data Technologies (ICSOFT 2007)

Pages from

345

Pages to

350

Pages count

6

Documents

BibTex


@inproceedings{BUT28805,
  author="Miroslav {Švéda} and Radimír {Vrba}",
  title="Towards a Unified Security/Safety Framework - A Design Approach to Embedded System Applications",
  annote="This paper presents a safety and security-based approach to networked embedded
system design that offers reusable design patterns for various domain-dedicated
applications. After introducing proper terminology, it deals with industrial,
sensor-based applications development support aiming at distributed components
interconnected by wired Internet and/or wireless sensor networks. The paper
presents a dependability-driven approach to embedded networks design for a class
of Internet-based applications. It discusses an abstract framework stemming from
embedded system networking technologies using wired and wireless LANs, and from
the IEEE 1451.1 smart transducer interface standard supporting client-server and
publish-subscribe communication patterns with group messaging based on IP
multicast that mediate safe and secure access to smart sensors through Internet
and Zigbee. The case study demonstrates how clients can access groups of wireless
smart pressure and temperature sensors and safety valves through Internet
effectively using developed system architecture, which respects prescribed
requirements for application dependent safety and security.",
  address="Institute for Systems and Technologies of Information, Control and Communication",
  booktitle="Proceedings of the International Conference on Software and Data Technologies (ICSOFT 2007)",
  chapter="28805",
  howpublished="print",
  institution="Institute for Systems and Technologies of Information, Control and Communication",
  year="2007",
  month="august",
  pages="345--350",
  publisher="Institute for Systems and Technologies of Information, Control and Communication",
  type="conference paper"
}