In most engineering disciplines, systems are designed by reusing existing components that have been used in other systems. It is certainly worthwhile to make use of existing architectures available as a whole or in part in the large space of designs instead of rebuilding the whole architecture. In collaboration with NASA Langley Research Center, we have been developing methods to reuse existing architectures for health and usage monitoring (HUMS) of aerospace structures. We discuss some of the key reuse techniques, which can be used to reuse existing available architectures in the design space. The primary contribution of This work is an iterative process model for employing reuse technique in a complex engineering system.
%0 Conference Paper
%1 mukkamala_reusability:_2004
%A Mukkamala, R.
%A Ramesh, R.
%A Agarwal, N.
%A Bandagadde, M.
%A Myadam, S.
%B Digital Avionics Systems Conference, 2004. DASC 04. The 23rd
%D 2004
%K Center Langley Research aerospace and architecture architecture; complex computing; design; diagnostics; engineering health iterative large-scale model; monitoring process program prototyping; reusability software structures; system system; systems; techniques; usage {NASA}
%P 7.E.2--71--10 Vol.2
%T Reusability: a technique for the design of HUMS architectures
%V 2
%X In most engineering disciplines, systems are designed by reusing existing components that have been used in other systems. It is certainly worthwhile to make use of existing architectures available as a whole or in part in the large space of designs instead of rebuilding the whole architecture. In collaboration with NASA Langley Research Center, we have been developing methods to reuse existing architectures for health and usage monitoring (HUMS) of aerospace structures. We discuss some of the key reuse techniques, which can be used to reuse existing available architectures in the design space. The primary contribution of This work is an iterative process model for employing reuse technique in a complex engineering system.
@inproceedings{mukkamala_reusability:_2004,
abstract = {In most engineering disciplines, systems are designed by reusing existing components that have been used in other systems. It is certainly worthwhile to make use of existing architectures available as a whole or in part in the large space of designs instead of rebuilding the whole architecture. In collaboration with {NASA} Langley Research Center, we have been developing methods to reuse existing architectures for health and usage monitoring {(HUMS)} of aerospace structures. We discuss some of the key reuse techniques, which can be used to reuse existing available architectures in the design space. The primary contribution of This work is an iterative process model for employing reuse technique in a complex engineering system.},
added-at = {2013-02-28T11:13:35.000+0100},
author = {Mukkamala, R. and Ramesh, R. and Agarwal, N. and Bandagadde, M. and Myadam, S.},
biburl = {https://www.bibsonomy.org/bibtex/27016b20bb6dfd0c1caeb86086ed7c0ad/fritzsolms},
booktitle = {{Digital Avionics Systems Conference, 2004. {DASC} 04. The 23rd}},
interhash = {7b4fe4d2b265f97529a5559379201c1c},
intrahash = {7016b20bb6dfd0c1caeb86086ed7c0ad},
keywords = {Center Langley Research aerospace and architecture architecture; complex computing; design; diagnostics; engineering health iterative large-scale model; monitoring process program prototyping; reusability software structures; system system; systems; techniques; usage {NASA}},
lccn = {0000},
month = oct,
pages = {7.E.2--71--10 Vol.2},
timestamp = {2013-02-28T11:13:59.000+0100},
title = {{Reusability: a technique for the design of {HUMS} architectures}},
volume = 2,
year = 2004
}