Abstract
The Internet of Things (IoT) represents the binder of two worlds, specifically the real one and the digital one: tangible objects become recognizable in the virtual world, having digital matches, thus creating a network that enables the connection in-between the components. With the contemporary evolution of this domain, interconnectivity has become a primary fraction of new research and development directions. The Industrial Internet of Things (IIoT) is a concept that covers the more industrial level of the physical and digital connection and stays behind the Industry 4.0 concept. Supervisory control and data acquisition (SCADA) applications are important in the industry, their core being very present as complex products of big companies, at high prices. The Node-RED environment quickly evolved as one of the most important perspectives in IIoT, able to replace, up to a certain level, classic SCADA applications, bringing benefits to the industry. In this paper, the main focus is to evidence this aspect and to develop an application that will demonstrate the functionality of the concept, making use of protocols such as Modbus TCP (Transmission Control Protocol) for interacting with industrial devices and Message Queuing Telemetry Transport (MQTT) to interact with higher-levels, which provides a publish-subscribe structuring and a low band-width usage. The application uses logging and archiving modules based on InfluxDB database and is conceived to achieve the visual supervisory structure as close as possible to well-known SCADA solutions. The presented work results prove the efficiency of the solution.
Highlights
The Internet of Things (IoT) and Industrial Internet of Things (IIoT) concepts express challenges and opportunities regarding connectivity, integrability, interoperability, and information exchange/interoperation between devices and systems [1,2]
The current paper presents a low-cost, highly customizable, platform-independent, modular, web-based and efficient Supervisory control and data acquisition (SCADA) approach, based on Node-RED IoT environment
To test the logic of the implementation and the distribution of the messages through the multiple components, and verifying the integrity of the data contained in the declared addresses at the explicit holding register, as mentioned before, two Message Queuing Telemetry Transport (MQTT) clients were used in conformity with the requirements of the protocol
Summary
The Internet of Things (IoT) and Industrial Internet of Things (IIoT) concepts express challenges and opportunities regarding connectivity, integrability, interoperability, and information exchange/interoperation between devices and systems [1,2]. IoT devices have had a dramatic expansion of usage among the contemporary developments of new technologies For these reasons, IoT designates a promising enlargement zone for businesses, informational processes, and multiple industries [5], contributing progressively to the actuality of the modern world. IoT designates a promising enlargement zone for businesses, informational processes, and multiple industries [5], contributing progressively to the actuality of the modern world Starting from concepts such as cyber-physical systems (CPS) as expressed in [6], the purpose is to gain intelligence as close as possible to the physical level and the fog [7], going up to processing the gained information and augmenting it with artificial intelligence in order to improve the functionality of existing structures [7,8,9]
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