文件名称:Tortiealling
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This paper analyses the Proportional-Integral-Derivative (PID) controller’s performance for quadruple tank process. The selection of controlling
the flow ratios in quadruple tank process act as Minimum and Non-minimum phase system. Its performance can be affected when system is
shifted minimum to non-minimum phase configuration and vice versa. This paper mainly focuses on searching the optimal controller
structure by increasing the controllers’ performance criteria. A comparative study on different controllers’ structures responses are in the
presence of peak overshoot. A simulation study of PID controller and Modified PID controller structures have been designed and to analyzed the
different controllers’ performance for the minimum and non-minimum phase system-This paper analyses the Proportional-Integral-Derivative (PID) controller’s performance for quadruple tank process. The selection of controlling
the flow ratios in quadruple tank process act as Minimum and Non-minimum phase system. Its performance can be affected when system is
shifted minimum to non-minimum phase configuration and vice versa. This paper mainly focuses on searching the optimal controller
structure by increasing the controllers’ performance criteria. A comparative study on different controllers’ structures responses are in the
presence of peak overshoot. A simulation study of PID controller and Modified PID controller structures have been designed and to analyzed the
different controllers’ performance for the minimum and non-minimum phase system
the flow ratios in quadruple tank process act as Minimum and Non-minimum phase system. Its performance can be affected when system is
shifted minimum to non-minimum phase configuration and vice versa. This paper mainly focuses on searching the optimal controller
structure by increasing the controllers’ performance criteria. A comparative study on different controllers’ structures responses are in the
presence of peak overshoot. A simulation study of PID controller and Modified PID controller structures have been designed and to analyzed the
different controllers’ performance for the minimum and non-minimum phase system-This paper analyses the Proportional-Integral-Derivative (PID) controller’s performance for quadruple tank process. The selection of controlling
the flow ratios in quadruple tank process act as Minimum and Non-minimum phase system. Its performance can be affected when system is
shifted minimum to non-minimum phase configuration and vice versa. This paper mainly focuses on searching the optimal controller
structure by increasing the controllers’ performance criteria. A comparative study on different controllers’ structures responses are in the
presence of peak overshoot. A simulation study of PID controller and Modified PID controller structures have been designed and to analyzed the
different controllers’ performance for the minimum and non-minimum phase system
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1-s2.0-S2212017314000978-main.pdf
1-s2.0-S2213138815000156-main.pdf