Advanced nonlinear control for electrical drive systems
The research project focuses on the development of advanced controllers for single and multi-dimensional servomechanisms to enhance their robustness to parameter disturbances, dynamic nonlinearities and load variations. Servomechanisms are always assumed and identified as linear systems. Friction...
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2008
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sg-ntu-dr.10356-145202023-03-04T03:22:02Z Advanced nonlinear control for electrical drive systems Wang, Youyi School of Electrical and Electronic Engineering DRNTU::Engineering::Electrical and electronic engineering::Control and instrumentation::Control engineering The research project focuses on the development of advanced controllers for single and multi-dimensional servomechanisms to enhance their robustness to parameter disturbances, dynamic nonlinearities and load variations. Servomechanisms are always assumed and identified as linear systems. Friction in the system is often simplified and represented as a constant plus linear damping term in previous work. Nevertheless, highly nonlinear friction is present and it can be vital for the performance of such systems. Friction compensation technique which is usually used as a part of control scheme is firstly introduced in system identification process in the report. Moreover, the Kalman filter based radial basis function (RBF) network is designed to fit and compensate the nonlinear friction in servomechanisms. The servomechanism with nonlinear friction compensation approximates a linear system to a great extent. The proposed compensation method is simple to be applied to the servomechanisms. Compared with the math model based friction fitting method, the RBF network realizes a much better fitting error result. Correspondingly, the identified linear system model is very close to the measured frequency response data as well. 2008-11-26T08:37:24Z 2008-11-26T08:37:24Z 2007 2007 Research Report http://hdl.handle.net/10356/14520 en 218 p. application/pdf |
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DRNTU::Engineering::Electrical and electronic engineering::Control and instrumentation::Control engineering Wang, Youyi Advanced nonlinear control for electrical drive systems |
| description |
The research project focuses on the development of advanced controllers for single and
multi-dimensional servomechanisms to enhance their robustness to parameter
disturbances, dynamic nonlinearities and load variations.
Servomechanisms are always assumed and identified as linear systems. Friction in
the system is often simplified and represented as a constant plus linear damping term
in previous work. Nevertheless, highly nonlinear friction is present and it can be vital
for the performance of such systems. Friction compensation technique which is usually
used as a part of control scheme is firstly introduced in system identification process in
the report. Moreover, the Kalman filter based radial basis function (RBF) network is
designed to fit and compensate the nonlinear friction in servomechanisms. The
servomechanism with nonlinear friction compensation approximates a linear system to
a great extent. The proposed compensation method is simple to be applied to the
servomechanisms. Compared with the math model based friction fitting method, the
RBF network realizes a much better fitting error result. Correspondingly, the identified
linear system model is very close to the measured frequency response data as well. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Wang, Youyi |
| format |
Research Report |
| author |
Wang, Youyi |
| author_sort |
Wang, Youyi |
| title |
Advanced nonlinear control for electrical drive systems |
| title_short |
Advanced nonlinear control for electrical drive systems |
| title_full |
Advanced nonlinear control for electrical drive systems |
| title_fullStr |
Advanced nonlinear control for electrical drive systems |
| title_full_unstemmed |
Advanced nonlinear control for electrical drive systems |
| title_sort |
advanced nonlinear control for electrical drive systems |
| publishDate |
2008 |
| url |
http://hdl.handle.net/10356/14520 |
| _version_ |
1759855285681258496 |