https://orcid.org/0000-0003-2911-7715
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ABSTRACT
Aims to develop a precise mathematical model for multi-loop system-based Quadruple Tank Process (QTP) - a challenging task, due to strong interaction between pump inputs and sensor values. Modeling is essential for understanding the behavior of quadruple tank system, analysis and design of controllers. Traditional methods such as transfer function and state space model limitations are removed through the proposed model. Transfer function model can never be applied to multiple input and multiple output QTP system. State space model never addresses the internal state of QTP system. In this paper, Machine Learning-based Quadruple Tank Process model is proposed such as Regression Tree Quadruple Tank Process (RT-QTP) model and Support Vector Machine Quadruple Tank Process (SVM-QTP) model for runtime input and output sensor level data from laboratory based QTP station. Regression technique is performed with pump inputs and output liquid level data and it is verified with R-square values of proposed models. The models provide an accuracy of about 98% for laboratory-based data from a QTP station, according to experiments using MATLAB software.
Disclosure statement
No potential conflict of interest was reported by the authors.
Availability of Data and Materials
The datasets generated during and/or analyzed during the current study are available from the corresponding author on reasonable request.
Ethical Approval
I will conduct myself with integrity, fidelity, and honesty. I will openly take responsibility for my actions, and only make agreements, which I intend to keep. I will not intentionally engage in or participate in any form of malicious harm to another person or animal.