Reference:
Björn Axenath, Holger Giese, Florian Klein, Ursula Frank, "Systematic Requirements-Driven Evaluation and Synthesis of Alternative Principle Solutions for Advanced Mechatronic Systems", in Proc. of the 14th IEEE International Requirements Engineering Conference (RE'06), Minneapolis/St. Paul, Minnesota, USA, pp. 156–165, IEEE Computer Science, 11-15 September 2006.
Abstract:
In advanced mechatronic systems, software was traditionally employed late in the development process for costeffectively realizing the required control functionality. Today however, software has become one of the main drivers for innovation, enabling cost-effective variants and online reconfiguration. During the development of mechatronic systems, different alternative principle solutions are usually systematically evaluated w.r.t. physical and economic requirements and constraints. We refine this step by performing a differentiated analysis factoring in relevant environmental influences. For multiple variants of a product line, the evaluation results can easily be reused by adjusting the weights of individual requirements and the relevance of different environmental situations. Taking synergies during development and production into account, a set of alternatives can then be identified which provides high performance at a low cost for the product line. Based on the refined analysis, we can furthermore identify combinations of alternative solutions that offer a more complete coverage of the required operation conditions or a more cost-effective solution by performing an online software reconfiguration in response to changes in the environment.
Links:
@InProceedings{Axenath+2006,
AUTHOR = {Axenath, Björn and Giese, Holger and Klein, Florian and
Frank, Ursula},
TITLE = {{Systematic Requirements-Driven Evaluation and Synthesis of
Alternative Principle Solutions for Advanced Mechatronic Systems}},
YEAR = {2006},
MONTH = {11-15 September},
BOOKTITLE = {Proc. of the 14th IEEE International Requirements
Engineering Conference (RE'06), Minneapolis/St. Paul, Minnesota, USA},
PAGES = {156--165},
PUBLISHER = {IEEE Computer Science},
URL =
{http://www.upb.de/cs/ag-schaefer/Veroeffentlichungen/Quellen/Papers/2006/re06.pdf},
ABSTRACT = {In advanced mechatronic systems, software was traditionally
employed late in the development process for costeffectively
realizing the required control functionality. Today
however, software has become one of the main drivers
for innovation, enabling cost-effective variants and online
reconfiguration. During the development of mechatronic
systems, different alternative principle solutions are usually
systematically evaluated w.r.t. physical and economic
requirements and constraints. We refine this step by performing
a differentiated analysis factoring in relevant environmental
influences. For multiple variants of a product
line, the evaluation results can easily be reused by adjusting
the weights of individual requirements and the relevance
of different environmental situations. Taking synergies during
development and production into account, a set of alternatives
can then be identified which provides high performance
at a low cost for the product line. Based on the refined
analysis, we can furthermore identify combinations of
alternative solutions that offer a more complete coverage of
the required operation conditions or a more cost-effective
solution by performing an online software reconfiguration
in response to changes in the environment.}
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