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TUTCRIS

Dependable Control Systems Design and Evaluation

Tutkimustuotosvertaisarvioitu

Standard

Dependable Control Systems Design and Evaluation. / Alho, Pekka; Mattila, Jouni.

Conference on Systems Engineering Research (CSER) 2011 Redondo Beach, California, USA, April 15-16, 2011.. Redondo Beach, CA : CSER 2011, 2011. (Conference on Systems Engineering Research CSER).

Tutkimustuotosvertaisarvioitu

Harvard

Alho, P & Mattila, J 2011, Dependable Control Systems Design and Evaluation. julkaisussa Conference on Systems Engineering Research (CSER) 2011 Redondo Beach, California, USA, April 15-16, 2011.. Conference on Systems Engineering Research CSER, CSER 2011, Redondo Beach, CA.

APA

Alho, P., & Mattila, J. (2011). Dependable Control Systems Design and Evaluation. teoksessa Conference on Systems Engineering Research (CSER) 2011 Redondo Beach, California, USA, April 15-16, 2011. (Conference on Systems Engineering Research CSER). Redondo Beach, CA: CSER 2011.

Vancouver

Alho P, Mattila J. Dependable Control Systems Design and Evaluation. julkaisussa Conference on Systems Engineering Research (CSER) 2011 Redondo Beach, California, USA, April 15-16, 2011.. Redondo Beach, CA: CSER 2011. 2011. (Conference on Systems Engineering Research CSER).

Author

Alho, Pekka ; Mattila, Jouni. / Dependable Control Systems Design and Evaluation. Conference on Systems Engineering Research (CSER) 2011 Redondo Beach, California, USA, April 15-16, 2011.. Redondo Beach, CA : CSER 2011, 2011. (Conference on Systems Engineering Research CSER).

Bibtex - Lataa

@inproceedings{058f4489332e412b8033bfbe9f997596,
title = "Dependable Control Systems Design and Evaluation",
abstract = "Remote handling (RH) is a key technology in the ITER fusion reactor. The controller systems used for performing mission-critical RH operations need to be dependable, as the fundamental requirement for the ITER RH system is a fail-safe and recoverable design. Additional design challenges include interoperability with systems and platform independence during ITER life cycle. Contributions are especially needed for development of cost-effective systems engineering (SE) practices and guidelines for fault-tolerant implementation. This paper addresses the issues by presenting a survey of industrial best practices and different fault prevention, tolerance, removal and forecasting methods. Based on the results, key findings to achieve dependable and cost efficient design include development a SE framework that supports reuse of components, models and analysis results; non-redundant fault tolerance; and use of commercial off-the-shelf hardware, operating systems and communication middleware.",
author = "Pekka Alho and Jouni Mattila",
note = "ei ut-numeroa 19.10.2013<br/>Contribution: organisation=iha,FACT1=1",
year = "2011",
language = "English",
series = "Conference on Systems Engineering Research CSER",
publisher = "CSER 2011",
booktitle = "Conference on Systems Engineering Research (CSER) 2011 Redondo Beach, California, USA, April 15-16, 2011.",

}

RIS (suitable for import to EndNote) - Lataa

TY - GEN

T1 - Dependable Control Systems Design and Evaluation

AU - Alho, Pekka

AU - Mattila, Jouni

N1 - ei ut-numeroa 19.10.2013<br/>Contribution: organisation=iha,FACT1=1

PY - 2011

Y1 - 2011

N2 - Remote handling (RH) is a key technology in the ITER fusion reactor. The controller systems used for performing mission-critical RH operations need to be dependable, as the fundamental requirement for the ITER RH system is a fail-safe and recoverable design. Additional design challenges include interoperability with systems and platform independence during ITER life cycle. Contributions are especially needed for development of cost-effective systems engineering (SE) practices and guidelines for fault-tolerant implementation. This paper addresses the issues by presenting a survey of industrial best practices and different fault prevention, tolerance, removal and forecasting methods. Based on the results, key findings to achieve dependable and cost efficient design include development a SE framework that supports reuse of components, models and analysis results; non-redundant fault tolerance; and use of commercial off-the-shelf hardware, operating systems and communication middleware.

AB - Remote handling (RH) is a key technology in the ITER fusion reactor. The controller systems used for performing mission-critical RH operations need to be dependable, as the fundamental requirement for the ITER RH system is a fail-safe and recoverable design. Additional design challenges include interoperability with systems and platform independence during ITER life cycle. Contributions are especially needed for development of cost-effective systems engineering (SE) practices and guidelines for fault-tolerant implementation. This paper addresses the issues by presenting a survey of industrial best practices and different fault prevention, tolerance, removal and forecasting methods. Based on the results, key findings to achieve dependable and cost efficient design include development a SE framework that supports reuse of components, models and analysis results; non-redundant fault tolerance; and use of commercial off-the-shelf hardware, operating systems and communication middleware.

M3 - Conference contribution

T3 - Conference on Systems Engineering Research CSER

BT - Conference on Systems Engineering Research (CSER) 2011 Redondo Beach, California, USA, April 15-16, 2011.

PB - CSER 2011

CY - Redondo Beach, CA

ER -