An Overview and Classification of Service Description Approaches in Automated Service Composition Research

Fanjiang, Yong-Yi; Syu, Yang; Ma, Shang‐Pin; Kuo, Jong-Yih

doi:10.1109/tsc.2015.2461538

Cited by 30 publications

(6 citation statements)

References 99 publications

(146 reference statements)

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“…Service description supports automated service discovery, selection and composition [Fanjiang et al, 2017]. In that case, descriptions are processed by a program.…”

Section: Description In Service-and Component-based Engineeringmentioning

confidence: 99%

Model-Driven Engineering for End-Users in the Loop in Smart Ambient Systems

Trouilhet¹,

Arcangeli²,

Bruel³

et al. 2021

jucs

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At the heart of cyber-physical and ambient systems, the user should permanently benefit from applications adapted to the situation and her/his needs. To do this, she/he must be able to configure her/his software environment and be supported as much as possible in that task. To this end, an intelligent “engine” assembles software components that are present in the ambient environment at the time and makes unanticipated applications emerge. The problem is to put the user “in the loop”, i.e., provide adapted and intelligible descriptions of the emerging applications, and present them so that the user can accept, modify or reject them. Besides, user feedback must be collected to feed the engine’s learning process. Our approach relies on Model-Driven Engineering (MDE). However, differently from the regular use of MDE tools and techniques by engineers to develop software and generate code, our focus is on end-users. Models of component assemblies are represented and made editable for them. Based on a metamodel that supports modeling and de- scription of component-based applications, a user interface provides multi-faceted representations of the emerging applications and captures user feedback. Our solution relies on several domain- specific languages and a transformation process, based on the established MDE tools (Gemoc studio, Eclipse Modeling Framework, EcoreTools, Sirius, Acceleo). It works in conjunction with the intelligent engine that builds the emerging applications and to which it provides learning data.

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“…Service description supports automated service discovery, selection and composition [Fanjiang et al, 2017]. In that case, descriptions are processed by a program.…”

Section: Description In Service-and Component-based Engineeringmentioning

confidence: 99%

Model-Driven Engineering for End-Users in the Loop in Smart Ambient Systems

Trouilhet¹,

Arcangeli²,

Bruel³

et al. 2021

jucs

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“…In automated service composition approaches, the description of services varies according to the requirements of the discovery and selection steps. The different solutions for service description have been classified [3]. Descriptions may be limited to a syntactic way.…”

Section: Related Workmentioning

confidence: 99%

“…Therefore, a service description should include extrafunctional characteristics that is QoS-related properties. According to [3], OWL-S has become a standard for industrial service composition. OWL-S is an ontology-based language for describing semantic Web services that enables their automated discovery, composition and use.…”

Section: Related Workmentioning

confidence: 99%

User-Oriented Description of Emerging Services in Ambient Systems

Koussaifi

2020

Lecture Notes in Computer Science

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Ambient intelligence aims at providing users the right services at the right time. Our solution composes software components and their services, automatically and on the fly, and makes composite services emerge from the environment. An important question is their intelligible presentation to an average user (not a service composition expert). Our approach consists in the automatic generation of user-oriented descriptions from unit descriptions of components and services. For that, we propose a domain-specific language for component and service descriptions and a combining method.

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“…Service description can take more or less advanced forms depending on the requirements for discovery, selection and composition. In [13], authors overview and classify service description approaches used in automated service composition research.…”

Section: B How To Describe a Service?mentioning

confidence: 99%

“…In [16], authors have proposed different techniques to create descriptions of services using the DAML-S language that was proposed to bridge the gap between the Web services infrastructure and the Semantic Web [17]. According to [13], OWL-S that succeeded to DAML-S has become a standard for industrial service composition. OWL-S [18] is an ontology for describing Semantic Web services that enables their automated discovery, composition and use.…”

Section: B How To Describe a Service?mentioning

confidence: 99%

Automated user-oriented description of emerging composite ambient applications

Koussaifi¹,

Trouilhet²,

Arcangeli³

et al. 2019

International Conferences on Software Engineering and Knowledge Engineering

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Ambient environments consist of components surrounding the user and offering services. Applications can here be composed opportunistically and automatically by an intelligent system that puts together available components. Thus, applications that are a priori unknown emerge from the environment. The problem is in the intelligible presentation to an average user of those emerging composite applications. Our approach consists in automatic generation of user-oriented application descriptions from unit descriptions of each component and service. For that, we propose a well-defined language for component description and a method for combining descriptions. A prototype has been developed and used to experiment the generation of different composite application descriptions. Based on these experiments, we assess the degree of fulfillment of the requirements we have identified for the problem.

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An Overview and Classification of Service Description Approaches in Automated Service Composition Research

Cited by 30 publications

References 99 publications

Model-Driven Engineering for End-Users in the Loop in Smart Ambient Systems

Model-Driven Engineering for End-Users in the Loop in Smart Ambient Systems

User-Oriented Description of Emerging Services in Ambient Systems

Automated user-oriented description of emerging composite ambient applications

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