An IoT Platform Based on Microservices and Serverless Paradigms for Smart Farming Purposes

• Published in: Sensors (Basel, Switzerland) Vol. 20; no. 8; p. 2418
• Main Authors: Trilles, Sergio, González-Pérez, Alberto, Huerta, Joaquín
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 24.04.2020; MDPI
• Subjects: Application programming interface; Computation; Computer architecture; Economic impact; Farming; Heterogeneity; Internet of Things; Interoperability; IoT platform; microservices; Middleware; Open source software; Performance evaluation; Radio frequency identification; serverless; smart farming; vineyar diseases; Wireless networks; serverless; IoT platform; smart farming; Internet of Things; microservices; vineyar diseases
• ISSN: 1424-8220; 1424-8220
• DOI: 10.3390/s20082418

Nowadays, the concept of "Everything is connected to Everything" has spread to reach increasingly diverse scenarios, due to the benefits of constantly being able to know, in real-time, the status of your factory, your city, your health or your smallholding. This wide variety of scenarios creates different challenges such as the heterogeneity of IoT devices, support for large numbers of connected devices, reliable and safe systems, energy efficiency and the possibility of using this system by third-parties in other scenarios. A transversal middleware in all IoT solutions is called an IoT platform. the IoT platform is a piece of software that works like a kind of "glue" to combine platforms and orchestrate capabilities that connect devices, users and applications/services in a "cyber-physical" world. In this way, the IoT platform can help solve the challenges listed above. This paper proposes an IoT agnostic architecture, highlighting the role of the IoT platform, within a broader ecosystem of interconnected tools, aiming at increasing scalability, stability, interoperability and reusability. For that purpose, different paradigms of computing will be used, such as microservices architecture and serverless computing. Additionally, a technological proposal of the architecture, called Connect, is presented. This proposal is validated in the IoT scenario of smart farming, where five IoT devices ( nodes) have been deployed to improve wine production. A comprehensive performance evaluation is carried out to guarantee a scalable and stable platform.