J. Kramer, and J. Magee. 2007 Future of Software Engineering, page 259--268. Washington, DC, USA, IEEE Computer Society, (2007)
DOI: 10.1109/FOSE.2007.19
Abstract
Self-management is put forward as one of the means by which we could provide systems that are scalable, support dynamic composition and rigorous analysis, and are flexible and robust in the presence of change. In this paper, we focus on architectural approaches to self-management, not because the language-level or network-level approaches are uninteresting or less promising, but because we believe that the architectural level seems to provide the required level of abstraction and generality to deal with the challenges posed. A self-managed software architecture is one in which components automatically configure their interaction in a way that is compatible with an overall architectural specification and achieves the goals of the system. The objective is to minimise the degree of explicit management necessary for construction and subsequent evolution whilst preserving the architectural properties implied by its specification. This paper discusses some of the current promising work and presents an outline three-layer reference model as a context in which to articulate some of the main outstanding research challenges.
%0 Conference Paper
%1 Kramer:2007:SSA:1253532.1254723
%A Kramer, Jeff
%A Magee, Jeff
%B 2007 Future of Software Engineering
%C Washington, DC, USA
%D 2007
%I IEEE Computer Society
%K architectur challenges model self_management
%P 259--268
%R 10.1109/FOSE.2007.19
%T Self-Managed Systems: an Architectural Challenge
%U http://dx.doi.org/10.1109/FOSE.2007.19
%X Self-management is put forward as one of the means by which we could provide systems that are scalable, support dynamic composition and rigorous analysis, and are flexible and robust in the presence of change. In this paper, we focus on architectural approaches to self-management, not because the language-level or network-level approaches are uninteresting or less promising, but because we believe that the architectural level seems to provide the required level of abstraction and generality to deal with the challenges posed. A self-managed software architecture is one in which components automatically configure their interaction in a way that is compatible with an overall architectural specification and achieves the goals of the system. The objective is to minimise the degree of explicit management necessary for construction and subsequent evolution whilst preserving the architectural properties implied by its specification. This paper discusses some of the current promising work and presents an outline three-layer reference model as a context in which to articulate some of the main outstanding research challenges.
%@ 0-7695-2829-5
@inproceedings{Kramer:2007:SSA:1253532.1254723,
abstract = {Self-management is put forward as one of the means by which we could provide systems that are scalable, support dynamic composition and rigorous analysis, and are flexible and robust in the presence of change. In this paper, we focus on architectural approaches to self-management, not because the language-level or network-level approaches are uninteresting or less promising, but because we believe that the architectural level seems to provide the required level of abstraction and generality to deal with the challenges posed. A self-managed software architecture is one in which components automatically configure their interaction in a way that is compatible with an overall architectural specification and achieves the goals of the system. The objective is to minimise the degree of explicit management necessary for construction and subsequent evolution whilst preserving the architectural properties implied by its specification. This paper discusses some of the current promising work and presents an outline three-layer reference model as a context in which to articulate some of the main outstanding research challenges.},
acmid = {1254723},
added-at = {2012-11-29T14:34:20.000+0100},
address = {Washington, DC, USA},
author = {Kramer, Jeff and Magee, Jeff},
biburl = {https://www.bibsonomy.org/bibtex/200379c3541b3b92d95a1299134622ed6/iyas_hilal},
booktitle = {2007 Future of Software Engineering},
description = {Self-Managed Systems},
doi = {10.1109/FOSE.2007.19},
interhash = {7b5f5eb335aa711774eb81e1c265ad04},
intrahash = {00379c3541b3b92d95a1299134622ed6},
isbn = {0-7695-2829-5},
keywords = {architectur challenges model self_management},
numpages = {10},
pages = {259--268},
publisher = {IEEE Computer Society},
series = {FOSE '07},
timestamp = {2012-11-29T14:34:20.000+0100},
title = {Self-Managed Systems: an Architectural Challenge},
url = {http://dx.doi.org/10.1109/FOSE.2007.19},
year = 2007
}