Improved short-term speed prediction using spatiotemporal-vision-based deep neural network for intelligent fuel cell vehicles
In this article, an improved short-term speed prediction method is proposed to predict short-term future speed and analyze future energy consumption of intelligent fuel cell vehicles. The short-term future speed is predicted by the proposed Inflated 3-D Inception long short-term memory (LSTM) networ...
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sg-ntu-dr.10356-1602812022-07-18T08:41:29Z Improved short-term speed prediction using spatiotemporal-vision-based deep neural network for intelligent fuel cell vehicles Zhang, Yuanzhi Huang, Zhiyu Zhang, Caizhi Lv, Chen Deng, Chenghao Hao, Dong Chen, Jinrui Ran, Hongxu School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Neural Networks Lithium-Ion Batteries In this article, an improved short-term speed prediction method is proposed to predict short-term future speed and analyze future energy consumption of intelligent fuel cell vehicles. The short-term future speed is predicted by the proposed Inflated 3-D Inception long short-term memory (LSTM) network, which takes the spatiotemporal-vision information and vehicle motion states. Specifically, the spatiotemporal-vision-based deep neural network utilizes image sequences captured by a front-facing camera as environmental information and historical speed series as motion information to improve the prediction accuracy. Then, a case study of the proposed speed prediction method, with rule-based energy management strategy to calculate future energy consumption, is presented. The simulation results show that short-term speed prediction based on the Inflated 3-D Inception LSTM network can achieve high accuracy of speed prediction in various traffic densities, as well as low prediction errors of future energy consumption including the hydrogen consumption and state-of-charge attenuation. This work was supported in part by the National Key Research and Development Program under Grant 2018YFB0105402 and Grant 2018YFB0105703, in part by the Fundamental Research Funds for the Central Universities under Grant 2019CDXYQC0003, Grant 244005202014, 2019, and Grant 2018CDXYTW0031, in part by the National Natural Science Foundation of China under Grant 51806024, in part by the Chongqing Research Program of Foundation and Advanced Technology under Grant cstc2017jcyjAX0276, and in part by the Venture and Innovation Support Program for Chongqing Overseas Returnees under Grant cx2018051. 2022-07-18T08:41:28Z 2022-07-18T08:41:28Z 2020 Journal Article Zhang, Y., Huang, Z., Zhang, C., Lv, C., Deng, C., Hao, D., Chen, J. & Ran, H. (2020). Improved short-term speed prediction using spatiotemporal-vision-based deep neural network for intelligent fuel cell vehicles. IEEE Transactions On Industrial Informatics, 17(9), 6004-6013. https://dx.doi.org/10.1109/TII.2020.3033980 1551-3203 https://hdl.handle.net/10356/160281 10.1109/TII.2020.3033980 2-s2.0-85102845237 9 17 6004 6013 en IEEE Transactions on Industrial Informatics © 2020 IEEE. All rights reserved. |
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Engineering::Mechanical engineering Neural Networks Lithium-Ion Batteries Zhang, Yuanzhi Huang, Zhiyu Zhang, Caizhi Lv, Chen Deng, Chenghao Hao, Dong Chen, Jinrui Ran, Hongxu Improved short-term speed prediction using spatiotemporal-vision-based deep neural network for intelligent fuel cell vehicles |
| description |
In this article, an improved short-term speed prediction method is proposed to predict short-term future speed and analyze future energy consumption of intelligent fuel cell vehicles. The short-term future speed is predicted by the proposed Inflated 3-D Inception long short-term memory (LSTM) network, which takes the spatiotemporal-vision information and vehicle motion states. Specifically, the spatiotemporal-vision-based deep neural network utilizes image sequences captured by a front-facing camera as environmental information and historical speed series as motion information to improve the prediction accuracy. Then, a case study of the proposed speed prediction method, with rule-based energy management strategy to calculate future energy consumption, is presented. The simulation results show that short-term speed prediction based on the Inflated 3-D Inception LSTM network can achieve high accuracy of speed prediction in various traffic densities, as well as low prediction errors of future energy consumption including the hydrogen consumption and state-of-charge attenuation. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Zhang, Yuanzhi Huang, Zhiyu Zhang, Caizhi Lv, Chen Deng, Chenghao Hao, Dong Chen, Jinrui Ran, Hongxu |
| format |
Article |
| author |
Zhang, Yuanzhi Huang, Zhiyu Zhang, Caizhi Lv, Chen Deng, Chenghao Hao, Dong Chen, Jinrui Ran, Hongxu |
| author_sort |
Zhang, Yuanzhi |
| title |
Improved short-term speed prediction using spatiotemporal-vision-based deep neural network for intelligent fuel cell vehicles |
| title_short |
Improved short-term speed prediction using spatiotemporal-vision-based deep neural network for intelligent fuel cell vehicles |
| title_full |
Improved short-term speed prediction using spatiotemporal-vision-based deep neural network for intelligent fuel cell vehicles |
| title_fullStr |
Improved short-term speed prediction using spatiotemporal-vision-based deep neural network for intelligent fuel cell vehicles |
| title_full_unstemmed |
Improved short-term speed prediction using spatiotemporal-vision-based deep neural network for intelligent fuel cell vehicles |
| title_sort |
improved short-term speed prediction using spatiotemporal-vision-based deep neural network for intelligent fuel cell vehicles |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/160281 |
| _version_ |
1738844894723571712 |