Web service paths can accomplish customer requirements. During the execution of a web service path, violations of service level agreements (SLAs) will cause the path to be re-planed (healed). Existing re-planning techniques generally suffer from shortcomings of ignoring the effect of requirement change. This paper proposes a two-leveled path re-planning technique (TLPRP), which offers the following features: (a) TLPRP is composed of both meta and physical levels. The meta level re-planning senses environment parameters (e.g., requirement change and analysis/design errors) and re-plan the affected component paths produced by system design. (b) The physical level re-planning algorithm possesses the ability of web
service path composition. (c) The re-planning algorithm embeds an access control policy that computes a successful possibility for every path to facilitate avoiding execution failure caused by web service access failure.
%0 Journal Article
%1 noauthororeditor
%A Chou, Shih-Chien
%A Chiang, Chih-Yang
%D 2012
%J International Journal on Web Service Computing (IJWSC)
%K (SLA) Meta Re-planning Service Web agreement level service
%N 4
%P 15-38
%R 10.5121/ijwsc.2012.3402
%T A TWO-LEVELED WEB SERVICE PATH RE-PLANNING TECHNIQUE
%U http://airccse.org/journal/jwsc/papers/3412ijwsc02.pdf
%V 3
%X Web service paths can accomplish customer requirements. During the execution of a web service path, violations of service level agreements (SLAs) will cause the path to be re-planed (healed). Existing re-planning techniques generally suffer from shortcomings of ignoring the effect of requirement change. This paper proposes a two-leveled path re-planning technique (TLPRP), which offers the following features: (a) TLPRP is composed of both meta and physical levels. The meta level re-planning senses environment parameters (e.g., requirement change and analysis/design errors) and re-plan the affected component paths produced by system design. (b) The physical level re-planning algorithm possesses the ability of web
service path composition. (c) The re-planning algorithm embeds an access control policy that computes a successful possibility for every path to facilitate avoiding execution failure caused by web service access failure.
@article{noauthororeditor,
abstract = {Web service paths can accomplish customer requirements. During the execution of a web service path, violations of service level agreements (SLAs) will cause the path to be re-planed (healed). Existing re-planning techniques generally suffer from shortcomings of ignoring the effect of requirement change. This paper proposes a two-leveled path re-planning technique (TLPRP), which offers the following features: (a) TLPRP is composed of both meta and physical levels. The meta level re-planning senses environment parameters (e.g., requirement change and analysis/design errors) and re-plan the affected component paths produced by system design. (b) The physical level re-planning algorithm possesses the ability of web
service path composition. (c) The re-planning algorithm embeds an access control policy that computes a successful possibility for every path to facilitate avoiding execution failure caused by web service access failure.},
added-at = {2019-12-03T07:40:28.000+0100},
author = {Chou, Shih-Chien and Chiang, Chih-Yang},
biburl = {https://www.bibsonomy.org/bibtex/2be3f6fc1e8027bcb3cbbb113e9e8d4ee/ijwsc},
doi = {10.5121/ijwsc.2012.3402},
interhash = {5231bd6094a37f5e66a7d65b9c1ad0fa},
intrahash = {be3f6fc1e8027bcb3cbbb113e9e8d4ee},
issn = {0976 - 9811 (Online) ; 2230 - 7702 (print)},
journal = {International Journal on Web Service Computing (IJWSC)},
keywords = {(SLA) Meta Re-planning Service Web agreement level service},
language = {English},
month = {December},
number = 4,
pages = {15-38},
timestamp = {2019-12-03T07:40:28.000+0100},
title = {A TWO-LEVELED WEB SERVICE PATH RE-PLANNING TECHNIQUE},
url = {http://airccse.org/journal/jwsc/papers/3412ijwsc02.pdf},
volume = 3,
year = 2012
}