Process-oriented metrics for software architecture evolvability
N. Subramanian, und L. Chung. International Workshop on Principles of Software Evolution, Seite 65--70. (2003)
Zusammenfassung
Evolution of software systems is almost a natural process. Evolution
can occur at different levels of abstraction of software. Evolution
at the architectural level, being the highest level of solution,
can often times be the most critical to the success and survival
of the pertaining software system. Metrics for software architectural
evolvability will help determine the extent to which the architectural
evolution can take place. We propose a framework called the POMSAE,
process-oriented metrics for software architecture evolvability,
that will help not only to intuitively develop architectural evolvability
metrics but also to trace the metrics back to the evolvability requirements.
This will then help analyze the reasons for the strengths/weaknesses
in the metrics. POMSAE is partially validated by demonstrating its
application to two practical telecom systems.
%0 Conference Paper
%1 subramanian03
%A Subramanian, Nary
%A Chung, L.
%B International Workshop on Principles of Software Evolution
%D 2003
%J Software Evolution, 2003. Proceedings. Sixth International Workshop
on Principles of
%K architecture evolution metrics process
%P 65--70
%T Process-oriented metrics for software architecture evolvability
%U http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=1231212
%X Evolution of software systems is almost a natural process. Evolution
can occur at different levels of abstraction of software. Evolution
at the architectural level, being the highest level of solution,
can often times be the most critical to the success and survival
of the pertaining software system. Metrics for software architectural
evolvability will help determine the extent to which the architectural
evolution can take place. We propose a framework called the POMSAE,
process-oriented metrics for software architecture evolvability,
that will help not only to intuitively develop architectural evolvability
metrics but also to trace the metrics back to the evolvability requirements.
This will then help analyze the reasons for the strengths/weaknesses
in the metrics. POMSAE is partially validated by demonstrating its
application to two practical telecom systems.
@inproceedings{subramanian03,
abstract = {Evolution of software systems is almost a natural process. Evolution
can occur at different levels of abstraction of software. Evolution
at the architectural level, being the highest level of solution,
can often times be the most critical to the success and survival
of the pertaining software system. Metrics for software architectural
evolvability will help determine the extent to which the architectural
evolution can take place. We propose a framework called the POMSAE,
process-oriented metrics for software architecture evolvability,
that will help not only to intuitively develop architectural evolvability
metrics but also to trace the metrics back to the evolvability requirements.
This will then help analyze the reasons for the strengths/weaknesses
in the metrics. POMSAE is partially validated by demonstrating its
application to two practical telecom systems.},
added-at = {2006-09-18T06:26:07.000+0200},
author = {Subramanian, Nary and Chung, L.},
biburl = {https://www.bibsonomy.org/bibtex/210b391d67af8051091333a159a6c3faa/neilernst},
booktitle = {International Workshop on Principles of Software Evolution},
citeulike-article-id = {638225},
description = {Not previously uploaded},
interhash = {ff2ad6b2be24aa9a3cce60ec4ee29134},
intrahash = {10b391d67af8051091333a159a6c3faa},
journal = {Software Evolution, 2003. Proceedings. Sixth International Workshop
on Principles of},
keywords = {architecture evolution metrics process},
pages = {65--70},
priority = {3},
timestamp = {2006-09-18T06:26:07.000+0200},
title = {Process-oriented metrics for software architecture evolvability},
url = {http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=1231212},
year = 2003
}