Bridging the Gap in Technology Transfer for Advanced Process Control with Industrial Applications

Sensors (Basel). 2022 May 30;22(11):4149. doi: 10.3390/s22114149.

Abstract

In the present paper, a software framework comprising the implementation of Model Predictive Control-a popular industrial control method-is presented. The framework is versatile and can be run on a variety of target systems including programmable logic controllers and distributed control system implementations. However, the main attractive property of the framework stems from the goal of achieving smooth technology transfer from the academic setting to real industrial applications. Technology transfer is, in general, difficult to achieve, because of the apparent disconnect between academic studies and actual industry. The proposed software framework aims at bridging this gap for model predictive control-a powerful control technique which can result in substantial performance improvement of industrial control loops, thus adhering to modern trends for reducing energy waste and fulfilling sustainable development goals. In the paper, the proposed solution is motivated and described, and experimental evidence of its successful deployment is provided using a real industrial plant.

Keywords: Industry 4.0; advanced control; industrial process; model predictive control; technology transfer.

MeSH terms

  • Computer Communication Networks
  • Industry
  • Logic
  • Software*
  • Technology Transfer*