An Integrated Model for Forecasting Indian Automobile
The automobile industry is one of India's main economic sectors. In recent decades India has attracted many global players in the automobile industry. The industry has significantly benefited from an increase in the paying capacity of the consumers. This has contributed to increased competition...
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my.utp.eprints.233202021-08-19T07:25:35Z An Integrated Model for Forecasting Indian Automobile Subramanian, K. Othman, M. Sokkalingam, R. Thangarasu, G. Kayalvizhi, S. The automobile industry is one of India's main economic sectors. In recent decades India has attracted many global players in the automobile industry. The industry has significantly benefited from an increase in the paying capacity of the consumers. This has contributed to increased competition in the market. Given that the automobile industry is a very complex process, a tool to predict the future of automotive demand from the modeling point of view is needed because of its high level of complexity and uncertainty. This study aims to introduce a novel integrated model with a combination of Adaptive Multiplicative Triple Exponential Smoothing Holt-Winters (AHW) method and Backpropagation Neural Networks (BPNNs) to improve the likelihood of predicting automobile sales accurately. This study is subject to continue validating a model in real-world automobile selling data against existing methods. This model also incorporates the linear and non-linear characteristics of AHW and BPNN, respectively to form a synergistic model. The proposed model has the higher capability to provide reasonable accuracy in forecasting future sales in terms of average prediction accuracy of 0.974637 than the existing methods namely BPNN 0.9483 and ANN 0.9275. For training and testing purposes, validation is done using the Indian automobile sales data. Finally, the regression fit shows that during the test stage in the car sales data for the period 2016-2017 and 2017-2018, the proposed integrated model is better than the conventional method. © 2020. All Rights Reserved. Insight Society 2020 Article NonPeerReviewed https://www.scopus.com/inward/record.uri?eid=2-s2.0-85099843551&doi=10.18517%2fijaseit.10.6.8475&partnerID=40&md5=1e4e7c0f590aab3a30b8834e2fd5010b Subramanian, K. and Othman, M. and Sokkalingam, R. and Thangarasu, G. and Kayalvizhi, S. (2020) An Integrated Model for Forecasting Indian Automobile. International Journal on Advanced Science, Engineering and Information Technology, 10 (6). pp. 2593-2598. http://eprints.utp.edu.my/23320/ |
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The automobile industry is one of India's main economic sectors. In recent decades India has attracted many global players in the automobile industry. The industry has significantly benefited from an increase in the paying capacity of the consumers. This has contributed to increased competition in the market. Given that the automobile industry is a very complex process, a tool to predict the future of automotive demand from the modeling point of view is needed because of its high level of complexity and uncertainty. This study aims to introduce a novel integrated model with a combination of Adaptive Multiplicative Triple Exponential Smoothing Holt-Winters (AHW) method and Backpropagation Neural Networks (BPNNs) to improve the likelihood of predicting automobile sales accurately. This study is subject to continue validating a model in real-world automobile selling data against existing methods. This model also incorporates the linear and non-linear characteristics of AHW and BPNN, respectively to form a synergistic model. The proposed model has the higher capability to provide reasonable accuracy in forecasting future sales in terms of average prediction accuracy of 0.974637 than the existing methods namely BPNN 0.9483 and ANN 0.9275. For training and testing purposes, validation is done using the Indian automobile sales data. Finally, the regression fit shows that during the test stage in the car sales data for the period 2016-2017 and 2017-2018, the proposed integrated model is better than the conventional method. © 2020. All Rights Reserved. |
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Subramanian, K. Othman, M. Sokkalingam, R. Thangarasu, G. Kayalvizhi, S. |
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Subramanian, K. Othman, M. Sokkalingam, R. Thangarasu, G. Kayalvizhi, S. An Integrated Model for Forecasting Indian Automobile |
author_facet |
Subramanian, K. Othman, M. Sokkalingam, R. Thangarasu, G. Kayalvizhi, S. |
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Subramanian, K. |
title |
An Integrated Model for Forecasting Indian Automobile |
title_short |
An Integrated Model for Forecasting Indian Automobile |
title_full |
An Integrated Model for Forecasting Indian Automobile |
title_fullStr |
An Integrated Model for Forecasting Indian Automobile |
title_full_unstemmed |
An Integrated Model for Forecasting Indian Automobile |
title_sort |
integrated model for forecasting indian automobile |
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Insight Society |
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2020 |
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https://www.scopus.com/inward/record.uri?eid=2-s2.0-85099843551&doi=10.18517%2fijaseit.10.6.8475&partnerID=40&md5=1e4e7c0f590aab3a30b8834e2fd5010b http://eprints.utp.edu.my/23320/ |
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