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IoT-TaaS: Towards a Prospective IoT Testing Framework

The Internet of Things (IoT) aims to change many aspects of people's daily lives by extending the scope of computing to the physical world, and thus shift the environment of computing more to a distributed and decentralized form. The amount of IoT devices and their collaborative behavior causes...

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Published in:	IEEE access 2018-01, Vol.6, p.15480-15493
Main Authors:	Kim, Hiun, Ahmad, Abbas, Hwang, Jaeyoung, Baqa, Hamza, Le Gall, Franck, Reina Ortega, Miguel Angel, Song, JaeSeung
Format:	Article
Language:	English
Subjects:	automated testing Automation Computation conformance testing Coordination Devices Heterogeneity Internet of Things Interoperability interoperability testing Protocols semantic testing Semantics Software Software testing test as a service
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creator	Kim, Hiun Ahmad, Abbas Hwang, Jaeyoung Baqa, Hamza Le Gall, Franck Reina Ortega, Miguel Angel Song, JaeSeung
description	The Internet of Things (IoT) aims to change many aspects of people's daily lives by extending the scope of computing to the physical world, and thus shift the environment of computing more to a distributed and decentralized form. The amount of IoT devices and their collaborative behavior causes new challenges to the scalability of traditional software testing, and the heterogeneity of IoT devices increases costs and the complexity of coordination of testing due to the number of variables. In this paper, we introduce IoT Testing as a Service- IoT-TaaS, a novel service-based approach for an automated IoT testing framework aims to resolve constraints regarding coordination, costs, and scalability issues of traditional software testing in the context of standards-based development of IoT devices, and explore its design and implementation. IoT-TaaS is composed of remote distributed interoperability testing, scalable automated conformance testing, and semantics validation testing components adequate for testing IoT devices. To provide a conceptual overview, we analyze its technical and systemic advancement and compare it to traditional testing with concrete examples.
doi_str_mv	10.1109/ACCESS.2018.2802489
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subjects	automated testing Automation Computation conformance testing Coordination Devices Heterogeneity Internet of Things Interoperability interoperability testing Protocols semantic testing Semantics Software Software testing test as a service
title	IoT-TaaS: Towards a Prospective IoT Testing Framework
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