Please use this identifier to cite or link to this item: http://idr.nitk.ac.in/jspui/handle/123456789/14265
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dc.contributor.advisorV. S, Ananthanarayana-
dc.contributor.authorKamath S, Sowmya-
dc.date.accessioned2020-06-30T07:21:04Z-
dc.date.available2020-06-30T07:21:04Z-
dc.date.issued2016-
dc.identifier.urihttp://idr.nitk.ac.in/jspui/handle/123456789/14265-
dc.description.abstractService-oriented Computing is a popular paradigm that lays the foundation for a robust distributed computing infrastructure for both intra- and cross-enterprise application integration and collaboration. It spans a diverse range of possible applications - standalone services, software mashups combining multiple Web services, micro-services used in the implementation of entire IT system landscapes etc. For any such service-oriented application design, the discovery of relevant services that can provide the desired capability is one of the basic tasks. In particular, Distributed Web service discovery is deemed to be one of the grand challenges in Web service research, due to the current distributed nature of services on the Web. This applies in particular to scenarios where a large number of service offers are available in an distributed environment like the WWW; making the process of making a selection difficult, especially given the limitations of keyword based matching. Hence, it is very desirable to improve this process to support efficient Web service discovery, using intelligent, semantics based techniques. This thesis addresses the important aspects of Web service discovery, focusing on services available in a large scale, distributed environment, that is, the Web. The main research contributions are towards the improvement of service discovery based on implicit semantic information, inference of service domain knowledge, context-aware Web service discovery and composition-oriented Web service discovery. An efficient, scalable framework called Distributed Web service Discovery with Semantics (DWDS), is presented, to address the issue of distributed Web service discovery using semantics. The DWDS framework also provides autonomic features like automated repository management, redundancy control and verification, in order to maintain the validity of the service repository. Based on the statistics collected over the course of 3 years, it was found that the techniques proposed for developing the DWDS framework and adding autonomic features were effective and supported scalable service discovery. To support similarity based service discovery and effective categorisation of services in the repository, automatic metadata generation and similarity computation techniques, that use the inherent functional semantics of the services were incorporated.As traditional unsupervised categorisation mechanisms like K-means clustering and supervised techniques like Classification cannot deal with the dynamic nature of the framework, a bio-inspired incremental clustering algorithm, BI2C, based on the flocking behaviour of birds was proposed. BI2C incrementally clusters the service collection after each change introduced by periodic crawler runs, thus, supporting the scalability of the service repository. BI2C achieved an average speed up of more than 57% over traditional clustering algorithms and was also able to deal with the large volume of service descriptions available in the DWDS repository. To enable context-aware, natural language based querying during Web service discovery in DWDS, semantics based query analysis techniques were developed. Also, any complex queries were automatically processed to determine their constituent sub-queries, so that composite service discovery can be supported. It was found that the semantic analysis of user query to capture context were effective as it resulted in 16% improvement in precision and over 37% increase in recall, over keyword matching based approach. To extend composite service discovery, a concept of capturing the service input/output dependencies formally through a Service Interface Graph (SIG) was proposed. In the SIG, services are represented as nodes, and their dependencies are captured as edges. Any user queries that have sub-queries are answered by traversing the SIG, so that the correct invocation sequence required to satisfy the user query requirements can be identified. Experimental evaluation showed that the proposed method achieved an accuracy of 70.68% and effectively identified correct composition templates in O(N2) time. To summarize our contributions, our work focuses on developing a semantics based distributed Web service discovery framework that can automatically retrieve service descriptions available in heterogeneous sources on the Web, to build a scalable service repository. Automated metadata generation and dynamic categorisation techniques enable the framework to support efficient basic and composite Web service discovery in a context-aware manner.en_US
dc.language.isoenen_US
dc.publisherNational Institute of Technology Karnataka, Surathkalen_US
dc.subjectDepartment of Information Technologyen_US
dc.titleDWDS - A Scalable, Context-Aware Framework for Distributed Web Service Discovery Using Semanticsen_US
dc.typeThesisen_US
Appears in Collections:1. Ph.D Theses

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