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Vianna, E. A., Abaide, A. R., Canha, L. N., & Miranda, V. (2017). Substations SF6 circuit breakers: Reliability evaluation based on equipment condition. Electric Power Systems Research, 142, 36-46.ViannaE. A.AbaideA. R.CanhaL. N. & MirandaV. (2017). Substations SF6 circuit breakers: Reliability evaluation based on equipment condition. Electric Power Systems Research, 142, 36-46.Search in Google Scholar
Zhao, X., Ma, T., Chen, Q., Chang, S., Zhang, J., Zhang, X., ... & Wu, C. (2023, December). Image Processing Techniques in Unattended Substations. In 2023 5th International Academic Exchange Conference on Science and Technology Innovation (IAECST) (pp. 834-839). IEEE.ZhaoX.MaT.ChenQ.ChangS.ZhangJ.ZhangX. ... & WuC. (2023, December). Image Processing Techniques in Unattended Substations. In 2023 5th International Academic Exchange Conference on Science and Technology Innovation (IAECST) (pp. 834-839). IEEE.Search in Google Scholar
Wang, H., Zhou, B., & Zhang, X. (2017). Research on the remote maintenance system architecture for the rapid development of smart substation in China. IEEE Transactions on Power Delivery, 33(4), 1845-1852.WangH.ZhouB. & ZhangX. (2017). Research on the remote maintenance system architecture for the rapid development of smart substation in China. IEEE Transactions on Power Delivery, 33(4), 1845-1852.Search in Google Scholar
Gao, D., & Wang, L. (2019). An implementation of intelligent substation monitoring system based on Internet of things. Journal of Computational Methods in Sciences and Engineering, 19(S1), 219-226.GaoD. & WangL. (2019). An implementation of intelligent substation monitoring system based on Internet of things. Journal of Computational Methods in Sciences and Engineering, 19(S1), 219-226.Search in Google Scholar
Lin, C., & Xu, Q. (2022). Risk assessment of substation integrated anti-misoperation system considering human reliability. IEEE Transactions on Power Delivery, 38(3).LinC. & XuQ. (2022). Risk assessment of substation integrated anti-misoperation system considering human reliability. IEEE Transactions on Power Delivery, 38(3).Search in Google Scholar
Köhn, P., Schnettler, A., & Schultze, N. (2017). Analysis of condition and risk-based maintenance planning for medium-voltage/low-voltage substations. CIRED-Open Access Proceedings Journal, 2017(1), 15-19.KöhnP.SchnettlerA. & SchultzeN. (2017). Analysis of condition and risk-based maintenance planning for medium-voltage/low-voltage substations. CIRED-Open Access Proceedings Journal, 2017(1), 15-19.Search in Google Scholar
Wu, Q., Yang, H., Wei, M., Remil, O., Wang, B., & Wang, J. (2018). Automatic 3D reconstruction of electrical substation scene from LiDAR point cloud. ISPRS Journal of Photogrammetry and Remote Sensing, 143, 57-71.WuQ.YangH.WeiM.RemilO.WangB. & WangJ. (2018). Automatic 3D reconstruction of electrical substation scene from LiDAR point cloud. ISPRS Journal of Photogrammetry and Remote Sensing, 143, 57-71.Search in Google Scholar
Mattioli, L., Cardoso, A., & Lamounier, E. (2020). 2D–3D spatial registration for remote inspection of power substations. Energies, 13(23), 6209.MattioliL.CardosoA. & LamounierE. (2020). 2D–3D spatial registration for remote inspection of power substations. Energies, 13(23), 6209.Search in Google Scholar
Hao, D., Zhenbao, Y., Zhicheng, X., & Zhiwen, C. (2019, November). Research on key technologies of substation 3D interactive scene simulation based on virtual reality technology. In Journal of Physics: Conference Series (Vol. 1345, No. 6, p. 062036). IOP Publishing.HaoD.ZhenbaoY.ZhichengX. & ZhiwenC. (2019, November). Research on key technologies of substation 3D interactive scene simulation based on virtual reality technology. In Journal of Physics: Conference Series (Vol. 1345, No. 6, p. 062036). IOP Publishing.Search in Google Scholar
Tu, Q., Li, J., Fan, D., Kong, Q., & Shen, J. (2023). Automatic Target Recognition of Substation 3D Scene for Digital Twin. Journal of System Simulation, 35(12), 2594-2601.TuQ.LiJ.FanD.KongQ. & ShenJ. (2023). Automatic Target Recognition of Substation 3D Scene for Digital Twin. Journal of System Simulation, 35(12), 2594-2601.Search in Google Scholar
Guo, W., Ji, Y., Luo, Y., & Zhou, Y. (2019). Substation equipment 3D identification based on KNN classification of subspace feature vector. Journal of Intelligent Systems, 28(5), 807-819.GuoW.JiY.LuoY. & ZhouY. (2019). Substation equipment 3D identification based on KNN classification of subspace feature vector. Journal of Intelligent Systems, 28(5), 807-819.Search in Google Scholar
Yuan, Q., Luo, Y., & Wang, H. (2022). 3D point cloud recognition of substation equipment based on plane detection. Results in Engineering, 15, 100545.YuanQ.LuoY. & WangH. (2022). 3D point cloud recognition of substation equipment based on plane detection. Results in Engineering, 15, 100545.Search in Google Scholar
Qin, L., Wang, T., & Yao, C. (2017). Research on application of location technology in 3D virtual environment modeling system for substation switch indicator. Intelligent Automation & Soft Computing, 1-7.QinL.WangT. & YaoC. (2017). Research on application of location technology in 3D virtual environment modeling system for substation switch indicator. Intelligent Automation & Soft Computing, 1-7.Search in Google Scholar
Junyong Xia, Biwei Li, Zhiqiang Xu, Fei Zhong & Xiaotao Hei. (2024). Point Cloud Registration Method Based on Improved TLBO for Landing Gear Components Measurement. Symmetry(11), 1506-1506.XiaJunyongLiBiweiXuZhiqiangZhongFei & HeiXiaotao. (2024). Point Cloud Registration Method Based on Improved TLBO for Landing Gear Components Measurement. Symmetry(11), 1506-1506.Search in Google Scholar
F.E.N.G. Yuanyuan, L.I. Hao, L.I. Chaokui & C.H.E.N. Jun. (2024). 3D modelling method and application to a digital campus by fusing point cloud data and image data. Heliyon(17), e36529-e36529.YuanyuanF.E.N.G.HaoL.I.ChaokuiL.I. & JunC.H.E.N.. (2024). 3D modelling method and application to a digital campus by fusing point cloud data and image data. Heliyon(17), e36529-e36529.Search in Google Scholar
Vamshi KrishnaKancharla & NeelamSinha. (2025). YOLOv5-based Detection and Classification of Early and Late Mild Cognitive Impairment through Corpus Callosum Analysis. Alzheimer’s & Dementia(S2), e087878-e087878.KrishnaKancharlaVamshi & NeelamSinha. (2025). YOLOv5-based Detection and Classification of Early and Late Mild Cognitive Impairment through Corpus Callosum Analysis. Alzheimer’s & Dementia(S2), e087878-e087878.Search in Google Scholar
Feng Gao, Ziheng Yang, Qiyu Liu, Zhan Zhang, Bang Li & Han Zhang. (2024). Enhanced oracle bone corrosion detection using attention-guided YOLO with ghost convolution. Discover Artificial Intelligence(1), 109-109.GaoFengYangZihengLiuQiyuZhangZhanLiBang & ZhangHan. (2024). Enhanced oracle bone corrosion detection using attention-guided YOLO with ghost convolution. Discover Artificial Intelligence(1), 109-109.Search in Google Scholar
Yuan Xinpeng, Fu Zhibo, Zhang Bowen, Xie Zhengkun & Gan Rui. (2024). Research on lightweight algorithm for gangue detection based on improved Yolov5. Scientific Reports(1), 6707-6707.XinpengYuanZhiboFuBowenZhangZhengkunXie & RuiGan. (2024). Research on lightweight algorithm for gangue detection based on improved Yolov5. Scientific Reports(1), 6707-6707.Search in Google Scholar
