Which IoT Protocol? Comparing Standardized Approaches over a Common M2M Application

Fysarakis, Konstantinos; Askoxylakis, Ioannis G.; Soultatos, Othonas; Papaefstathiou, Ioannis; Manifavas, Charalampos; Katos, Vasilios

doi:10.1109/glocom.2016.7842383

Cited by 63 publications

(39 citation statements)

References 26 publications

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“…The authors in [12,9,13] compare the most promising IoT middleware protocols: DPWS, CoAP, MQTT, Websockets, XMPP, REST and AMQP. They recommend combining one or more protocols in an IoT application to better exploit the underlying communication infrastructure.…”

Section: Middleware-layer Iot Protocolsmentioning

confidence: 99%

“…1). To enable the effective exploitation of the underlying communication infrastructure [9,10], each sensor/device possibly employs a different IoT middleware protocol for data exchange, as depicted in Fig. 1.…”

Section: Introductionmentioning

confidence: 99%

“…Each one of the above protocols implements different APIs and primitives for sending/receiving data of different formats [12,9,13]. Hence, to enable such a scenario, the heterogeneity between the involved peers (e.g., WebSocket → REST) must be tackled.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Automated synthesis of mediators for middleware-layer protocol interoperability in the IoT

Bouloukakis

Georgantas

Ntumba

et al. 2019

Future Generation Computer Systems

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Section: Middleware-layer Iot Protocolsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Automated synthesis of mediators for middleware-layer protocol interoperability in the IoT

Bouloukakis

Georgantas

Ntumba

et al. 2019

Future Generation Computer Systems

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“…Computing devices have significant importance in the current environment but researchers and engineers are aiming to exploit the functions of pervasive systems [29]. Pervasive systems provide different types of services that are capable of solving real-time and complex problems.…”

Section: Literature Reviewmentioning

confidence: 99%

Design and Implementation of an Interworking IoT Platform and Marketplace in Cloud of Things

2019

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An internet of things (IoT) platform is a multi-layer technology that enables automation of connected devices within IoT. IoT platforms serve as a middle-ware solution and act as supporting software that is able to connect different hardware devices, access points, and networks to other parts of the value chain. Virtual objects have become a vital component in every IoT platform. Virtual objects are the digital representation of a physical entity. In this paper, we design and implement a cloud-centric IoT platform that serves a purpose for registration and initialization of virtual objects so that technology tinkerers can consume them via the IoT marketplace and integrate them to build IoT applications. The proposed IoT platform differs from existing IoT platforms in the sense that they provide hardware and software services on the same platform that users can plug and play. The proposed IoT platform is separate from the IoT marketplace where users can consume virtual objects to build IoT applications. Experiments are conducted for IoT platform and interworking IoT marketplace based on virtual objects in CoT. The proposed IoT platform provides a user-friendly interface and is secure and reliable. An IoT testbed is developed and a case study is performed for a domestic environment to reuse virtual objects on the IoT marketplace. It also provides the discovery and sharing of virtual objects. IoT devices can be monitored and controlled via virtual objects. We have conducted a comparative analysis of the proposed IoT platform with FIWARE. Results conclude that the proposed system performs marginally better than FIWARE.

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“…Five analyzed projects (including SEnviro) follow RESTFul communication. This kind of protocol is not appropriate for IoT solutions when considering the resource, bandwidth, and energy restrictions of IoT devices [46].…”

mentioning

confidence: 99%

A Comprehensive IoT Node Proposal Using Open Hardware. A Smart Farming Use Case to Monitor Vineyards

2018

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The last decade has witnessed a significant reduction in prices and an increased performance of electronic components, coupled with the influence of the shift towards the generation of open resources, both in terms of knowledge (open access), programs (open-source software), and components (open hardware). This situation has produced different effects in today's society, among which is the empowerment of citizens, called makers, who are themselves able to generate citizen science or build assembly developments. Situated in the context described above, the current study follows a Do-It-Yourself (DIY) approach. In this way, it attempts to define a conceptual design of an Internet of Things (IoT) node, which is reproducible at both physical and behavioral levels, to build IoT nodes which can cover any scenario. To test this conceptual design, this study proposes a sensorization node to monitor meteorological phenomena. The node is called SEnviro (node) and features different improvements such as: the possibility of remote updates using Over-the-Air (OTA) updates; autonomy, using 3G connectivity, a solar panel, and applied energy strategies to prolong its life; and replicability, because it is made up of open hardware and other elements such as 3D-printed pieces. The node is validated in the field of smart agriculture, with the aim of monitoring different meteorological phenomena, which will be used as input to disease detection models to detect possible diseases within vineyards.

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Which IoT Protocol? Comparing Standardized Approaches over a Common M2M Application

Cited by 63 publications

References 26 publications

Automated synthesis of mediators for middleware-layer protocol interoperability in the IoT

Automated synthesis of mediators for middleware-layer protocol interoperability in the IoT

Design and Implementation of an Interworking IoT Platform and Marketplace in Cloud of Things

A Comprehensive IoT Node Proposal Using Open Hardware. A Smart Farming Use Case to Monitor Vineyards

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