OASIS WSQM TC Meeting

2005. 12. 14Dugki Min

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Agenda1. Roll Call2. Review and approval of the agenda3. Review and approval of the previous meeeting minutes4. Review of WSQM 2.05. Issue Discussion

Definition of Web Services QualityDiscussion of terms, scope, overview and methodology of revie

wing the contributed workWeb Services in Australia and Metrics for UDDI RegistryOther Issues

6. Any Other BusinessF2F Meeting at San Francisco in May next yearF2F Meeting in Korea early next yearOther Businesses

7. Adjourn

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Dr. Eunju Kim’s SuggestionTwo definition of WS Quality related terms and scopes of Web Services

Quality 1. Web Services Quality : A set of non-fun ctional attributes that may i

mpact the quality of the service offered by a WebService 2. Quality Enabled Web Services : Web Services which provide infomati

on on Quality and gaurantee it. 3. Scope of Web Services Quality : Non-Functional Information(feature)

which can be refered through quality envolved(enabled) web services life cycle.

4. Quality envolved(enabled) web services life cycle : Planning, Development, Deployment, Discovery, Use, Manage etc (It should be more developed)

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Definition of Web Services Quality

A set of non-functional attributes that may impact the quality of the service offered by a WebService (Dr. Eunju Kim)

A set of non-functional QoS aspects of web services (Dr.Dugki Min) Ref: Software Architecture in Practice, 2nd

Ref: IBM article: Understanding quality of service for Web services

Ref: ISO/IEC 9000, ISO/IEC 9126-1 Ref: CCITT Recommendation E.800

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Web Service Papers

IEEE (by Web Services) matched 1845 of 1,282,825 documents.

ACM (by Web Services) Found 878 of 167,655 documents

Google Web Services Quality 에 대한 약

341,000,000 개 결과들 Conferences

Web Services Quality Workshops, Conferences

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Related Terms

Web Services QoS QoS enabled Web services

= QoS-aware Web services Framework for QoS-aware Web Services QoS specifications and management of Web ser

vices QoS negotiation & binding establishment Selection and Monitoring of QoS-aware Web serv

ices

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Web Service QoS Stacks

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Suggestion for F2F Meeting

The 2nd IEEE International Workshop on Collaborative Computing, Integration, and Assurance (WCCIA) April 27-28, 2006, in Kolon Hotel,

Gyeongju, Korea http://asusrl.eas.asu.edu/srlab/activ ities

/w ccia/

organized in conjunction with the 9th IEEE International Symposium on Object and component-oriented Real-time distributed Computing (ISORC)

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WCCIA 2006 Scope

Web Services (WS) and Service-Oriented Computing (SOC) form a new paradigm of computing that changes the way we develop and use computer software. Under this new paradigm, all computer programs or components are given a standard and platform-independent programming interface, and be stored in an internet-searchable repository. The accumulation of available components makes it possible to compose applications completely based on existing components. Assuming that there exists a large repository of components (services), the manual coding (programming) step in the software development process can be largely replaced by automatic code generation. In other words, once the model of a system is developed, which consists of components and the relationships among the components, the executable of the system (application) or the simulation of the application can be automatically generated, if the functions of the components can be performed by existing services. Furthermore, an application can be modified at runtime. An application can dynamically discover newly available services, use the new services to replace an existing service (reconfiguration), and recompose the system based on the modified model (recomposition). The new computing paradigm imposes new challenges and opportunities for modeling and simulation research. This year's WCCIA workshop devotes to exploring the new techniques and applications of modeling and simulation in service-oriented computing paradigm. The topics include but not limited to:

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WCCIA 2006 Topics

Specification, design, and implementation of service-oriented architecture Model-driven development Architecture-based development Modeling languages Model-based simulation Distributed simulation Service-oriented system engineering Modeling and simulation of Web services and service-oriented applications Performance evaluation of Web services and service-oriented applications Dependability evaluation of Web services and service-oriented applications Quality assurance of Web services and service-oriented applications Trustworthy computing over the Internet Tools supporting Web service development Infrastructure supporting service-oriented architecture and Web services Web service experimentation environment Web services searching, discovery, remote invocation, and monitoring Dynamic Web services composition, configuration, and reconfiguration Web services testing, reliability assessment, and ranking Test case generation using formal methods and model checking Applications of trustworthy Web services, for example, in supply chain, banking, travel

services, and mission-critical tasks. Collaborative verification and Validation Reliability, security, safety, and trustworthiness of web-based computing