Hello guys,
we're continuing our series of threads named "Advanced control" whose purpose is to present formal methods and techniques of system identification and control. In previous threads we could see how to desing controllers for heat exchanger and tank level control. Now it is time to learn how to do system identification i.e. how to obtain (mathematical) model of process in order to gain better control. I asked our Peter Nachtwey to teach us techniques he prefers and luckily he agreed.
In next posts different identification methods for heat exchanger will be explained. To refresh memory this link:
www.controlguru.com/postpics/heatexchanger.doc
will be helpful.
Since I'm not familiar with identification methods I cannot make any detail introduction.
Peter, it's your turn...
we're continuing our series of threads named "Advanced control" whose purpose is to present formal methods and techniques of system identification and control. In previous threads we could see how to desing controllers for heat exchanger and tank level control. Now it is time to learn how to do system identification i.e. how to obtain (mathematical) model of process in order to gain better control. I asked our Peter Nachtwey to teach us techniques he prefers and luckily he agreed.
In next posts different identification methods for heat exchanger will be explained. To refresh memory this link:
www.controlguru.com/postpics/heatexchanger.doc
will be helpful.
Since I'm not familiar with identification methods I cannot make any detail introduction.
Peter, it's your turn...