On web-based domain-specific language for Internet of Things

Sneps-Sneppe, Manfred; Namiot, Dmitry

doi:10.1109/icumt.2015.7382444

Cited by 14 publications

(5 citation statements)

References 19 publications

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“…LogicIoT [141] offer a textual web-based DSL to ease data access and processing semantics in IoT and Smart Cities settings. LogicIoT is implemented as a set of custom Jakarta Server Pages (JSP) 3 in which different custom JSP tags have been implemented to define the modeling semantics.…”

Section: Iot Specific Lcdps For Service-oriented Applications Develop...mentioning

confidence: 99%

“…In this case, all the system's sub-components will be modeled as black boxes (services), and they only communicate with well-defined mechanisms (e.g., employing REST APIs). For instance, approaches such as [139,141,142,147] had taken a step toward this modeling paradigm. This section looks at what has been done so far in the IoT domain to support IoT systems' development through cloud-based modeling approaches.…”

Section: Cloud-based Modeling In Iot Domainmentioning

confidence: 99%

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Low-Code Engineering for the Internet of Things

Ihirwe

2023

SSRN Journal

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Section: Iot Specific Lcdps For Service-oriented Applications Develop...mentioning

confidence: 99%

Section: Cloud-based Modeling In Iot Domainmentioning

confidence: 99%

Low-Code Engineering for the Internet of Things

Ihirwe

2023

SSRN Journal

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“…Sneps-Sneppe and Namiot [44] propose a web-based DSL to simplify data access in IoT web applications. This DSL supports both synchronous and asynchronous data updates as well as communication between processes and sensors.…”

Section: Related Workmentioning

confidence: 99%

A Domain-Specific Language for Simulation-Based Testing of IoT Edge-to-Cloud Solutions

Li¹,

Nejati²,

Sabetzadeh³

et al. 2022

Preprint

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The Internet of things (IoT) is increasingly prevalent in domains such as emergency response, smart cities and autonomous vehicles. Simulation plays a key role in the testing of IoT systems, noting that field testing of a complete IoT product may be infeasible or prohibitively expensive. In this paper, we propose a domain-specific language (DSL) for generating edge-to-cloud simulators. An edgeto-cloud simulator executes the functionality of a large array of edge devices that communicate with cloud applications. Our DSL, named IoTECS, is the result of a collaborative project with an IoT analytics company, Cheetah Networks. The industrial use case that motivates IoTECS is ensuring the scalability of cloud applications by putting them under extreme loads from IoT devices connected to the edge. We implement IoTECS using Xtext and empirically evaluate its usefulness. We further reflect on the lessons learned.

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“…Several DSLs to model specific parts of IoT synchronous communication systems have been explored. One of such approaches is the one presented by Sneps-Sneppe and Namiot [48], where the authors present an extension of Java Server Pages to generate a web-based DSL to use in IoT applications. The proposed DSL enables IoT communications between the devices that support the process and the sensors.…”

Section: Model-based Approaches For Synchronous Communicationsmentioning

confidence: 99%

Model-driven development of asynchronous message-driven architectures with AsyncAPI

et al. 2021

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In the Internet-of-Things (IoT) vision, everyday objects evolve into cyber-physical systems. The massive use and deployment of these systems has given place to the Industry 4.0 or Industrial IoT (IIoT). Due to its scalability requirements, IIoT architectures are typically distributed and asynchronous. In this scenario, one of the most widely used paradigms is publish/subscribe, where messages are sent and received based on a set of categories or topics. However, these architectures face interoperability challenges. Consistency in message categories and structure is the key to avoid potential losses of information. Ensuring this consistency requires complex data processing logic both on the publisher and the subscriber sides. In this paper, we present our proposal relying on AsyncAPI to automate the design and implementation of these asynchronous architectures using model-driven techniques for the generation of (part of) message-driven infrastructures. Our proposal offers two different ways of designing the architectures: either graphically, by modeling and annotating the messages that are sent among the different IoT devices, or textually, by implementing an editor compliant with the AsyncAPI specification. We have evaluated our proposal by conducting a set of experiments with 25 subjects with different expertise and background. The experiments show that one-third of the subjects were able to design and implement a working architecture in less than an hour without previous knowledge of our proposal, and an additional one-third estimated that they would only need less than two hours in total.

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On web-based domain-specific language for Internet of Things

Cited by 14 publications

References 19 publications

Low-Code Engineering for the Internet of Things

Low-Code Engineering for the Internet of Things

A Domain-Specific Language for Simulation-Based Testing of IoT Edge-to-Cloud Solutions

Model-driven development of asynchronous message-driven architectures with AsyncAPI

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