Revolutionary advances in technology have been seen in many industries, with the IIoT being a prime example. The IIoT creates a network of interconnected devices, allowing smooth communication and interoperability in industrial settings. This not only boosts efficiency, productivity, and safety but also provides transformative solutions for various sectors. This research looks into open-source IIoT and edge platforms that are applicable to a range of applications with the aim of finding and developing high-potential solutions. It highlights the effect of open-source IIoT and edge computing platforms on traditional IIoT applications, showing how these platforms make development and deployment processes easier. Popular open-source IIoT platforms include DeviceHive and Thingsboard, while EdgeX Foundry is a key platform for edge computing, allowing IIoT applications to be deployed closer to data sources, thus reducing latency and conserving bandwidth. This study seeks to identify potential future domains for the implementation of IIoT solutions using these open-source platforms. Additionally, each sector is evaluated based on various criteria, such as development requirement analyses, market demand projections, the examination of leading companies and emerging startups in each domain, and the application of the International Patent Classification (IPC) scheme for in-depth sector analysis.
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The logistics sector is continually seeking innovations to improve service productivity and profitability in freight transport, such as reduced fuel consumption and automation in warehouses. However, the road transport sector in Europe currently faces challenges such as a shortage of drivers, unused road capacity at night, and poor digital insight into traffic. Digitalization and enhanced telecommunication, like 5G network connectivity, offer solutions for improvement, including teleoperation where vehicles are controlled remotely by humans from a control center, leading to increased efficiency and comfort for drivers. This paper presents a set of the first results of a pilot project where Automated Docking functionality was integrated in the teleoperated tractor-semitrailer combination. The paper discusses functional architecture, controller design, integration, and the first results of testing on a full scaled vehicle demonstrator.
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We live in an increasingly complex world, characterised by interconnected and intractable wicked problems. Systems mapping offers a visual approach for collectively understanding and envisioning how to coordinate the addressing of these problems. The agri-food sector is facing severe problems and systems mapping could be particularly instrumental in helping it navigate these difficulties.
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