Abstract
Linear system identification is a well-known methodology for building mathematical models of dynamic systems from observed input–output data. It also represents an essential tool for model-based control design, adaptive control and other advanced control techniques. Use of linear identification is, however, often limited to academic environment and to research facilities equipped with scientific computing platforms and highly qualified staff. Common industrial or building control system technology rarely uses these advanced design techniques. The main obstacle is typically lack of experience with their practical implementation. In this article, a procedure is proposed, implemented, and tested, that brings the benefits of linear identification into broader control system practice. The open-source DCU control system platform with its advanced control framework is used for implementation of the proposed linear identification procedure. The procedure is experimentally tested in the laboratory setting using a unique model of HVAC system as well as in real-world environment in an experimental two storey family house. Testing this novel feature of the control system has proved satisfactory results, while some of them are presented in graphical and numerical form.
Highlights
Smart building solutions, green building technology or Industry 4.0 are nowadays popular and frequently mentioned terms [1]
The practical implementation is done in the open-source Global Monitoring Control System (GMCS) platform based on the Dynamic Control Unit (DCU) real-time hardware
Declined to half power and to zero. It can be seen from the graph that the output signal reacted rather quick to this input what is caused by a shorter distance between actuator and sensor
Summary
Green building technology or Industry 4.0 are nowadays popular and frequently mentioned terms [1]. They refer to a general idea, that Heating, Ventilation and Air-Conditioning (HVAC) technologies in buildings, production lines in factories or even standalone machines shall be more intelligent in some way. This intelligence is supposed to bring fully automated, more cost-effective and more reliable operation with comfortable and intuitive Human-Machine Interface (HMI). We believe that control system engineering shall focus on implementation of advanced control system techniques into common practice
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