Complex Industrial Systems Automation Based on the Internet of Things Implementation

Abstract

This paper presents the analysis of the Internet of Things (IoT) approach and its application for the development of embedded monitoring and automatic control systems (EMACS) for technological objects and processes that are included in complex industrial systems. The functional structure and main components of the generalized embedded monitoring and automatic control system for complex technological objects and processes based on IoT approach are given. The examples of IoT applications in design of specialized EMACS for such complex technical objects as gas turbine engines, floating docks and specialized pyrolysis complexes (SPC) are presented. Considerable attention is given to particular qualities of the functional structures, software and hardware implementation as well as multi-level human-machine interfaces (HMI) of the developed embedded systems for monitoring and automatic control of main process parameters. The developed EMACS based on IoT approach provide: high precision control of operating processes of gas turbine engines, floating docks and SPCs in the real time mode, monitoring and automatic control of their current technological parameters with high quality indicators, that leads to significant increasing of energy and economic efficiency of both given complex technical objects.