FEM and ANN based simulations to study the effect of electrical field distribution on water tree affected polymeric cables
Earlier researches have confirmed that polymeric cables suffer from serious water tree degradation under combined stresses of electrical, thermal and chemical, thus shortening the lifespan of the cables. This paper aims at proposing a methodology using Finite Element Method (FEM) and Artificial Neur...
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my.uniten.dspace-297802023-12-28T16:57:39Z FEM and ANN based simulations to study the effect of electrical field distribution on water tree affected polymeric cables Sulaiman S. Abidin I.Z. 36562570400 35606640500 Cable insulation Finite element methods and neural networks Trees (insulation) Backpropagation Bioelectric phenomena Cables Database systems Error analysis Finite element method Materials science Neural networks Numerical analysis Permittivity Photoacoustic effect Sulfate minerals Trees (mathematics) Water analysis Wire rope Artificial neural network (ANNs) Back propagation (BP) Combined stresses Electrical field distributions Electrical fields Finite element method (FEM) Finite element method (FEM) software International (CO) Life spans Optimisation Permittivity values Polymeric cables Water treeing Water-tree degradation Waveforms Electric network analysis Earlier researches have confirmed that polymeric cables suffer from serious water tree degradation under combined stresses of electrical, thermal and chemical, thus shortening the lifespan of the cables. This paper aims at proposing a methodology using Finite Element Method (FEM) and Artificial Neural Network (ANN) based simulations to estimate the effect and create a database of the electrical field distribution in water tree affected polymeric cables. The water tree lengths in the affected polymeric cables are varied to assess their effect on the level of the electrical field distribution. The permittivity values within the water tree structures are varied accordingly to the lengths measured in water tree growths. The electrical field distribution waveforms arising out of the variation in water tree growths are plotted using FEM software and the results are analysed. Analysis shows that the electrical field distribution levels increases exponentially with the rise in water tree lengths. The results are then translated into electrical field ratios and fed to an ANN simulation. The simulation attempts to create a database for water tree degraded cables with two (2) categories of training inputs i.e. permittivity and water tree length, and a target output of electrical field ratio. The error in the ANN simulation is then marginalised to an error value of less than 1% using the back-propagation method for optimisation of weights. � 2006 IEEE. Final 2023-12-28T08:57:39Z 2023-12-28T08:57:39Z 2006 Conference paper 10.1109/PECON.2006.346631 2-s2.0-46249114026 https://www.scopus.com/inward/record.uri?eid=2-s2.0-46249114026&doi=10.1109%2fPECON.2006.346631&partnerID=40&md5=edc64af153d366163de0135e59dcc1a7 https://irepository.uniten.edu.my/handle/123456789/29780 4154475 119 122 Scopus |
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Cable insulation Finite element methods and neural networks Trees (insulation) Backpropagation Bioelectric phenomena Cables Database systems Error analysis Finite element method Materials science Neural networks Numerical analysis Permittivity Photoacoustic effect Sulfate minerals Trees (mathematics) Water analysis Wire rope Artificial neural network (ANNs) Back propagation (BP) Combined stresses Electrical field distributions Electrical fields Finite element method (FEM) Finite element method (FEM) software International (CO) Life spans Optimisation Permittivity values Polymeric cables Water treeing Water-tree degradation Waveforms Electric network analysis |
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Cable insulation Finite element methods and neural networks Trees (insulation) Backpropagation Bioelectric phenomena Cables Database systems Error analysis Finite element method Materials science Neural networks Numerical analysis Permittivity Photoacoustic effect Sulfate minerals Trees (mathematics) Water analysis Wire rope Artificial neural network (ANNs) Back propagation (BP) Combined stresses Electrical field distributions Electrical fields Finite element method (FEM) Finite element method (FEM) software International (CO) Life spans Optimisation Permittivity values Polymeric cables Water treeing Water-tree degradation Waveforms Electric network analysis Sulaiman S. Abidin I.Z. FEM and ANN based simulations to study the effect of electrical field distribution on water tree affected polymeric cables |
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Earlier researches have confirmed that polymeric cables suffer from serious water tree degradation under combined stresses of electrical, thermal and chemical, thus shortening the lifespan of the cables. This paper aims at proposing a methodology using Finite Element Method (FEM) and Artificial Neural Network (ANN) based simulations to estimate the effect and create a database of the electrical field distribution in water tree affected polymeric cables. The water tree lengths in the affected polymeric cables are varied to assess their effect on the level of the electrical field distribution. The permittivity values within the water tree structures are varied accordingly to the lengths measured in water tree growths. The electrical field distribution waveforms arising out of the variation in water tree growths are plotted using FEM software and the results are analysed. Analysis shows that the electrical field distribution levels increases exponentially with the rise in water tree lengths. The results are then translated into electrical field ratios and fed to an ANN simulation. The simulation attempts to create a database for water tree degraded cables with two (2) categories of training inputs i.e. permittivity and water tree length, and a target output of electrical field ratio. The error in the ANN simulation is then marginalised to an error value of less than 1% using the back-propagation method for optimisation of weights. � 2006 IEEE. |
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36562570400 |
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36562570400 Sulaiman S. Abidin I.Z. |
| format |
Conference paper |
| author |
Sulaiman S. Abidin I.Z. |
| author_sort |
Sulaiman S. |
| title |
FEM and ANN based simulations to study the effect of electrical field distribution on water tree affected polymeric cables |
| title_short |
FEM and ANN based simulations to study the effect of electrical field distribution on water tree affected polymeric cables |
| title_full |
FEM and ANN based simulations to study the effect of electrical field distribution on water tree affected polymeric cables |
| title_fullStr |
FEM and ANN based simulations to study the effect of electrical field distribution on water tree affected polymeric cables |
| title_full_unstemmed |
FEM and ANN based simulations to study the effect of electrical field distribution on water tree affected polymeric cables |
| title_sort |
fem and ann based simulations to study the effect of electrical field distribution on water tree affected polymeric cables |
| publishDate |
2023 |
| _version_ |
1806423276600164352 |
| score |
13.214268 |