Controller design for a pilot-scale heating and ventilation system using fuzzy logic approach
In this paper, a Single–input fuzzy logic controller (SIFLC) is designed and applied on a nonlinear heating and ventilation plant VVS-400 developed from Instrutek, Larvik, Norway. VVS–400 is modeled using Auto–regressive with exogenous input (ARX) model structure and linear black–box technique. The...
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2011
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my.utm.448172017-11-01T04:17:18Z http://eprints.utm.my/id/eprint/44817/ Controller design for a pilot-scale heating and ventilation system using fuzzy logic approach Mohd. Subha, Nurul Adilla Rahmat, Mohd. Fua’ad Ishaq, Kashif M. TH Building construction In this paper, a Single–input fuzzy logic controller (SIFLC) is designed and applied on a nonlinear heating and ventilation plant VVS-400 developed from Instrutek, Larvik, Norway. VVS–400 is modeled using Auto–regressive with exogenous input (ARX) model structure and linear black–box technique. The proposed SIFLC offers significant reduction in rule inferences and simplify the tuning of control parameters. To verify its effectiveness, this control method is simulated with an approximated VVS–400 model. An approximated VVS–400 model is obtained using System Identification toolbox in Matlab. The SIFLC provides several advantages over conventional fuzzy logic controller (CFLC) due to its simple inference rule mechanism, require very minimum tuning effort and minimizing the computational time to accomplish the controller algorithm. Simulations validate the equivalency of both controllers. Results reveal that SIFLC and CFLC have almost similar output performance. However SIFLC requires very minimum tuning effort and has less computational time. Penerbit UTM Press 2011 Article PeerReviewed Mohd. Subha, Nurul Adilla and Rahmat, Mohd. Fua’ad and Ishaq, Kashif M. (2011) Controller design for a pilot-scale heating and ventilation system using fuzzy logic approach. Jurnal Teknologi (Sciences and Engineering), 54 . pp. 123-139. ISSN 0127-9696 |
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TH Building construction Mohd. Subha, Nurul Adilla Rahmat, Mohd. Fua’ad Ishaq, Kashif M. Controller design for a pilot-scale heating and ventilation system using fuzzy logic approach |
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In this paper, a Single–input fuzzy logic controller (SIFLC) is designed and applied on a nonlinear heating and ventilation plant VVS-400 developed from Instrutek, Larvik, Norway. VVS–400 is modeled using Auto–regressive with exogenous input (ARX) model structure and linear black–box technique. The proposed SIFLC offers significant reduction in rule inferences and simplify the tuning of control parameters. To verify its effectiveness, this control method is simulated with an approximated VVS–400 model. An approximated VVS–400 model is obtained using System Identification toolbox in Matlab. The SIFLC provides several advantages over conventional fuzzy logic controller (CFLC) due to its simple inference rule mechanism, require very minimum tuning effort and minimizing the computational time to accomplish the controller algorithm. Simulations validate the equivalency of both controllers. Results reveal that SIFLC and CFLC have almost similar output performance. However SIFLC requires very minimum tuning effort and has less computational time. |
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Article |
| author |
Mohd. Subha, Nurul Adilla Rahmat, Mohd. Fua’ad Ishaq, Kashif M. |
| author_facet |
Mohd. Subha, Nurul Adilla Rahmat, Mohd. Fua’ad Ishaq, Kashif M. |
| author_sort |
Mohd. Subha, Nurul Adilla |
| title |
Controller design for a pilot-scale heating and ventilation system using fuzzy logic approach |
| title_short |
Controller design for a pilot-scale heating and ventilation system using fuzzy logic approach |
| title_full |
Controller design for a pilot-scale heating and ventilation system using fuzzy logic approach |
| title_fullStr |
Controller design for a pilot-scale heating and ventilation system using fuzzy logic approach |
| title_full_unstemmed |
Controller design for a pilot-scale heating and ventilation system using fuzzy logic approach |
| title_sort |
controller design for a pilot-scale heating and ventilation system using fuzzy logic approach |
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Penerbit UTM Press |
| publishDate |
2011 |
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http://eprints.utm.my/id/eprint/44817/ |
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1643651554184527872 |
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13.214268 |