In this paper, we propose an integration of the Unified Process and a Dependability Analysis and Modeling (DAM) profile to support quantifiable, testable reliability and availability requirements (R & AR) elicitation and completeness analysis. Specifically, we are interested in improved identification and specification of R & AR and their associated assumptions. This is accomplished through an iterative workflow that is consistent with the Unified Process and attaches DAM stereotypes to use and misuse cases. Fault-tree analysis helps determine and mitigate combinations of faults that could impede R & AR achievement. The workflow steps are demonstrated and evaluated on an intrusion protection service for critical infrastructures.
Description
IEEE Xplore Abstract - Reliability and Availability Requirements Engineering within the Unified Process Using a Dependabili...
%0 Conference Paper
%1 bernardi2010reliability
%A Bernardi, S.
%A Merseguer, J.
%A Lutz, R.R.
%B Dependable Computing Conference (EDCC), 2010 European
%D 2010
%K availability engineering reliability requirements unified
%P 95-104
%R 10.1109/EDCC.2010.21
%T Reliability and Availability Requirements Engineering within the Unified Process Using a Dependability Analysis and Modeling Profile
%U http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=5474192
%X In this paper, we propose an integration of the Unified Process and a Dependability Analysis and Modeling (DAM) profile to support quantifiable, testable reliability and availability requirements (R & AR) elicitation and completeness analysis. Specifically, we are interested in improved identification and specification of R & AR and their associated assumptions. This is accomplished through an iterative workflow that is consistent with the Unified Process and attaches DAM stereotypes to use and misuse cases. Fault-tree analysis helps determine and mitigate combinations of faults that could impede R & AR achievement. The workflow steps are demonstrated and evaluated on an intrusion protection service for critical infrastructures.
@inproceedings{bernardi2010reliability,
abstract = {In this paper, we propose an integration of the Unified Process and a Dependability Analysis and Modeling (DAM) profile to support quantifiable, testable reliability and availability requirements (R & AR) elicitation and completeness analysis. Specifically, we are interested in improved identification and specification of R & AR and their associated assumptions. This is accomplished through an iterative workflow that is consistent with the Unified Process and attaches DAM stereotypes to use and misuse cases. Fault-tree analysis helps determine and mitigate combinations of faults that could impede R & AR achievement. The workflow steps are demonstrated and evaluated on an intrusion protection service for critical infrastructures.},
added-at = {2014-08-28T15:20:45.000+0200},
author = {Bernardi, S. and Merseguer, J. and Lutz, R.R.},
biburl = {https://www.bibsonomy.org/bibtex/257f4eff82d96c4624bcb0862c96d837b/avail_map_stud},
booktitle = {Dependable Computing Conference (EDCC), 2010 European},
description = {IEEE Xplore Abstract - Reliability and Availability Requirements Engineering within the Unified Process Using a Dependabili...},
doi = {10.1109/EDCC.2010.21},
interhash = {a757aacdf589803ce61d5ed1c252c949},
intrahash = {57f4eff82d96c4624bcb0862c96d837b},
keywords = {availability engineering reliability requirements unified},
month = {April},
pages = {95-104},
timestamp = {2014-10-15T22:06:35.000+0200},
title = {Reliability and Availability Requirements Engineering within the Unified Process Using a Dependability Analysis and Modeling Profile},
url = {http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=5474192},
year = 2010
}