A QoS-based service retrieval methodology for digital ecosystems

The emergence of the World Wide Web and its influence on the fields of industry, commerce, healthcare and so on, has led to an innovative, dynamic, open, collaborative and interactive environment – the digital ecosystem. Whereas service plays an important role in digital ecosystems, there is no technology available to retrieve heterogeneous and geographically dispersed services. Additionally, no methodology has been proposed in the literature that can distinguish or rank the services based on the Quality of Services (QoS). In order to address these issues, we propose a semantic service retrieval engine which incorporates a novel semantic QoS evaluation methodology. The salient feature of this methodology that sets it apart from any other QoS evaluation methodologies is that the evaluation of the service and the subsequent quantification of QoS is a combination of subjective and objective QoS measures. Another salient feature of our proposed methodology is that it enables the domain-specific ranking of services. Finally, an online prototype is implemented to evaluate our methodology, the results of which are discussed in this paper.

[1]  Hideyuki Tokuda,et al.  Dynamic QOS Control based on Real-Time Threads , 1993, NOSSDAV.

[2]  Johann Eder,et al.  Time Constraints in Workflow Systems , 1999, CAiSE.

[3]  H. Boley,et al.  Digital Ecosystems: Principles and Semantics , 2007, 2007 Inaugural IEEE-IES Digital EcoSystems and Technologies Conference.

[4]  E. Chang,et al.  Trust Issues in Service Oriented Environment , 2006, 2006 IEEE International Conference on Service Operations and Logistics, and Informatics.

[5]  Dieter Fensel,et al.  A Multi-criteria Service Ranking Approach Based on Non-Functional Properties Rules Evaluation , 2007, ICSOC.

[6]  Kang G. Shin,et al.  QoS negotiation in real-time systems and its application to automated flight control , 1997, Proceedings Third IEEE Real-Time Technology and Applications Symposium.

[7]  Sang Hyuk Son,et al.  Feedback Control Real-Time Scheduling: Framework, Modeling, and Algorithms* , 2001, Real-Time Systems.

[8]  Elizabeth Chang,et al.  A Semantic Crawler Based on an Extended CBR Algorithm , 2008, OTM Workshops.

[9]  Michael Ditze Resource Adaptation for Mobile AV Devices in the UPnP QoS Architecture , 2006, J. Mobile Multimedia.

[10]  York Sure,et al.  The semantic Web : research and applications : 3rd European Semantic Web Conference, ESWC 2006 Budva, Montenegro, June 11-14, 2006 : proceedings , 2006 .

[11]  Jianqing Zhang,et al.  AMPol-Q: Adaptive Middleware Policy to Support QoS , 2006, ICSOC.

[12]  Tharam S. Dillon,et al.  Trustworthiness and CCCI metrics in P2P communication , 2004, Comput. Syst. Sci. Eng..

[13]  Lawrence Chung,et al.  Representation and Utilization of Non-Functional Requirements for Information System Design , 1991, CAiSE.

[14]  Justus Klingemann,et al.  Controlled Flexibility in Workflow Management , 2000, CAiSE.

[15]  Bruno Sousa,et al.  QoS management and control for an all-IP WiMAX network architecture: Design, implementation and evaluation , 2008, Mob. Inf. Syst..

[16]  Rene L. Cruz,et al.  Quality of Service Guarantees in Virtual Circuit Switched Networks , 1995, IEEE J. Sel. Areas Commun..

[17]  E. Chang,et al.  Transport service ontology and its application in the field of semantic search , 2008, 2008 IEEE International Conference on Service Operations and Logistics, and Informatics.

[18]  Villy Bæk Iversen,et al.  TELETRAFFIC ENGINEERING HANDBOOK , 2001 .

[19]  Erol Gelenbe,et al.  Autonomous smart routing for network QoS , 2004 .

[20]  Scott Shenker,et al.  Supporting real-time applications in an Integrated Services Packet Network: architecture and mechanism , 1992, SIGCOMM '92.

[21]  Tharam S. Dillon,et al.  CCCI metrics for the measurement of quality of e-service , 2005, IEEE/WIC/ACM International Conference on Intelligent Agent Technology.

[22]  Elizabeth Chang,et al.  A Transport Service Ontology-based Focused Crawler , 2008, 2008 Fourth International Conference on Semantics, Knowledge and Grid.

[23]  Thomas R. Gruber,et al.  A translation approach to portable ontology specifications , 1993, Knowl. Acquis..

[24]  John A. Zinky,et al.  Architectural Support for Quality of Service for CORBA Objects , 1997, Theory Pract. Object Syst..

[25]  E. Chang,et al.  Trust and Reputation for Service-Oriented Environments: Technologies For Building Business Intelligence And Consumer Confidence , 2006 .

[26]  Jinyong Jo,et al.  Design and implementation of QoS measurement and network diagnosing framework for IP multicast in advanced collaborative environment , 2005, Fourth Annual ACIS International Conference on Computer and Information Science (ICIS'05).

[27]  Quan Z. Sheng,et al.  Quality driven web services composition , 2003, WWW '03.

[28]  Karl Aberer,et al.  Deriving service models in cross-organizational workflows , 1999, Proceedings Ninth International Workshop on Research Issues on Data Engineering: Information Technology for Virtual Enterprises. RIDE-VE'99.

[29]  Bu-Sung Lee,et al.  QoS measurement issues with DAML-QoS ontology , 2005, IEEE International Conference on e-Business Engineering (ICEBE'05).

[30]  Elizabeth Chang,et al.  Digital Ecosystems A Next Generation of the Collaborative Environment , 2006, iiWAS.

[31]  Svend Frølund,et al.  Quality-of-service specification in distributed object systems , 1998, Distributed Syst. Eng..

[32]  Nazim Agoulmine,et al.  Inter-Domain SLS Negotiation for End-to-End UMTS/IMS QoS , 2007, J. Mobile Multimedia.

[33]  Sushil Jajodia,et al.  Temporal Reasoning in Workflow Systems , 2002, Distributed and Parallel Databases.

[34]  Hal Berghel,et al.  Cyberspace 2000: dealing with information overload , 1997, CACM.

[35]  Matti A. Hiltunen,et al.  Survivability through customization and adaptability: the Cactus approach , 2000, Proceedings DARPA Information Survivability Conference and Exposition. DISCEX'00.

[36]  Jos de Bruijn,et al.  Web Service Modeling Ontology , 2005, Appl. Ontology.

[37]  Mimoza Durresi,et al.  Qos-Energy Aware Broadcast for Heterogeneous Wireless Ad Hoc Networks , 2006, J. Mobile Multimedia.

[38]  Roch Guérin,et al.  Efficient network QoS provisioning based on per node traffic shaping , 1996, TNET.

[39]  Panagiotis Papadimitriou,et al.  On Transport Layer Mechanisms for Real-Time QoS , 2006, J. Mobile Multimedia.