| [1] |
Peter J Gawthrop.
Bond graph based control using virtual actuators.
Proceedings of the Institution of Mechanical Engineers Pt. I:
Journal of Systems and Control Engineering, 218(4):251--268, September 2004.
[ bib |
DOI |
.pdf ]
A bond-graph based approach to design in the physical domain is described which uses the concept of virtual actuators and virtual sensors.
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| [2] |
P.J. Gawthrop and E. McGookin.
A lego-based control experiment.
IEEE Control Systems Magazine, 24(5):43--56, October 2004.
[ bib |
DOI |
.pdf ]
A nice feature of the LEGO system is that, although the mechanical, electrical, and structural construction is good enough for successful results, there are enough discrepancies between theory and practice to introduce the student to real-world problems of controller. This article concentrates on implementing the feedback controller within the RCX, with the host computer used for compiling, downloading, and data display. However, an interesting research project is to implement part of the controller on the host computer and communicate by means of the IR channel. The bandwidth restriction that this approach imposes can provide the basis for a research project on control through a restricted bandwidth channel.
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| [3] |
Liuping Wang, Peter Gawthrop, Charlie Chessari, Tony Podsiadly, and Angus
Giles.
Indirect approach to continuous time system identification of food
extruder.
Journal of Process Control, 14(6):603--615, September 2004.
[ bib |
DOI |
.pdf ]
A three-stage approach to system identification in the continuous time is presented which is appropriate for day-to-day application by plant engineers in the process industry. The three stages are: data acquisition using relay feedback; non-parametric identification of the system step response; and parametric model fitting of the identified step response. The method is evaluated on a pilot-scale food-cooking extruder.
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