![]() Extensive runtime studies on a laboratory scale plant, using advanced data acquisition facilities, were carried out to showcase the effectiveness of developed FOPCS. This was done in order to obtain an optimized and enhanced performance from the control loop. ![]() ![]() Also, a global optimization technique, backtracking search algorithm was further employed to critically tune the parameters of control structures. The proposed FOPCS is an extension of parallel control structure (PCS) with the help of fractional order calculus, to enhance the robustness in the control loop without compromising with control performance. To address this concern, a robust and improved fractional order parallel control structure (FOPCS) for flow control is proposed in this paper. Use of these valves often incorporates nonlinear and uncertain dynamics in the control loop on account of its input-output characteristics, which may result in degradation of control loop performance. Control of flow rate in industrial plants is an essential and crucial task, which is usually achieved by pneumatic control valves in industries.
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