Design and Implementation of an Industrial Multinetwork TCP/IP of a Distributed Control System with Virtual Processes Based on IOT
| Autor: | Alexander Toapanta Casa, Elizabeth Alvarado Rubio, Wilson Edmundo Sánchez Ocaña, Edwin Torres López |
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| Rok vydání: | 2021 |
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| Zdroj: | Proceedings of Sixth International Congress on Information and Communication Technology ISBN: 9789811623790 ICICT (2) |
| DOI: | 10.1007/978-981-16-2380-6_70 |
| Popis: | This research details the design and implementation of an industrial multinetwork TCP/IP distributed control system with virtual processes based on IoT. The methodology consisted of selecting an industrial communication protocol for each process, then configuring the respective functions for sending and receiving data. The network consists of four PLC S7-1500, a server connected to three clients; each one controls a virtual industrial process through the TIA Portal software and is linked to the web through Node-RED. The communication protocols applied are Modbus TCP for an automatic bottling process, Profinet for the level control process and S7 Communication for handling an automatic gripper. The results obtained are that in the communication protocol Modbus client-server reflects a significant latency in sending and receiving information; in contrast, protocols S7 and Profinet show the speed of data transmission, as for communication with the web, Node-RED has no delays; however, its complement FRED Sensetecnic shows a slight response latency. The use of tools such as Factory IO, FluidSim and DopSoft facilitate the virtualization of industrial processes. Due to the sanitary crisis in which we live, nowadays, there is a fundamental search for technological tools that allow making control and remote monitoring of processes in real time, leaving open the possibility of being part of the Internet of Things and of Industry 4.0. |
| Databáze: | OpenAIRE |
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