DocumentCode
125433
Title
MagEl: A Magneto-Electric Effect-Inspired Approach for Web Service Composition
Author
Ahmed, Toufik ; Mrissa, Michael ; Srivastava, Anurag
Author_Institution
Discipline of CSE, Indian Inst. of Technol. Indore, Indore, India
fYear
2014
fDate
June 27 2014-July 2 2014
Firstpage
455
Lastpage
462
Abstract
Web service composition is the art of combining multiple platform independent and modular pieces of software with varied configurations, to achieve an efficient solution for a complex business process. Though, web service composition has been an important area of research in the last decade, however the issue is expected to exacerbate in the ´Future Internet´, as it is expected to house billions of services, with thousands offering the same functionality. In this context, maintaining an operational and solid set of Web service configurations will be a challenging task. Moreover, a centralized solution for Web service composition in the Future Internet scenario would be another issue. In this paper, we present a technique inspired from ElectroMagnetism in physics to create an environment which facilitates the selection of a service from a set of similar services. The proposed model achieves service composition in a decentralized environment without involving a centralized orchestrator. To validate the proposed technique in-silico experiments were conducted whose results demonstrate good performance in terms of completion time and load balancing. Further, the proposed technique is validated in-house (within our Institute´s Intranet and with real users) by deploying real Web services on decentralized nodes. The results obtained via simulation are verified through a prototype based on the proposed model. We present, discuss and compare the effectiveness of the proposed work in the results section.
Keywords
Web services; magnetoelectric effects; resource allocation; Future Internet scenario; MagEl; Web service composition; Web service configurations; complex business process; electromagnetism; in-silico experiments; magnetoelectric effect-inspired approach; Electric fields; Electromagnetic forces; Magnetic domains; Magnetic fields; Quality of service; Web services; Decentralized Web Service Composition; Physics Inspired Computing; Service Choreography; Service Oriented Architecture;
fLanguage
English
Publisher
ieee
Conference_Titel
Web Services (ICWS), 2014 IEEE International Conference on
Conference_Location
Anchorage, AK
Print_ISBN
978-1-4799-5053-9
Type
conf
DOI
10.1109/ICWS.2014.71
Filename
6928931
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