[1] Yan Mei, Xu H, Li M, et al. Hierarchical predictive energy management strategy for fuel cell buses entering bus stops scenario[J]. Green Energy and Intelligent Transportation, 2023: 100095. (科协高起点期刊)
[2] Li Menglin, Liu Haoran, Mei Yan* et al. Data-driven bi-level predictive energy management strategy for fuel cell buses with algorithmics fusion[J]. Energy Conversion and Management: X, 2023, 20: 100414. (IF= 6.3)
[3] Yan Mei, Li Guotong, Li Menglin*, He Hongwen, Xu Hongyang, Liu Haoran. Hierarchical predictive energy management of fuel cell buses with launch control integrating traffic information[J]. Energy Conversion and Management, 2022, 256: 115397. (中科院一区 TOP、IF= 11.533)
[4] Yan Mei, Xu Hongyang, Jin Lisheng, He Hongwen, Li Menglin, Liu Haoran. Co-optimization for Fuel Cell Buses Integrated with Power System and Air Conditioning via Multi-dimensional Prediction of Driving Conditions[J]. Energy Conversion and Management, 2022,271, 116339. (中科院一区 TOP、IF= 11.533)
[5] Yan Mei, He Hongwen, Li Menglin, Li, Gaopeng, Zhang, Xiaowei, Chen, Zhen. A comprehensive life cycle assessment on dual-source pure electric bus[J]. Journal of Cleaner Production, 2020, 276: 0-122702. (中科院一区 TOP、IF= 11.072)
[6] Yan Mei, Li Menglin, He Hongwen, Peng Jiankun, Sun Chao. Rule-based energy management for dual-source electric buses extracted by wavelet transform[J]. Journal of Cleaner Production, 2018, 189: 116-127.(SCI、IF= 11.072)
[7] Li Menglin, Liu Haoran, Mei Yan*, Hongyang Xu, Hongwen He. A Novel Multi-Objective Energy Management Strategy for Fuel Cell Buses Quantifying Fuel Cell Degradation as Operating Cost[J]. Sustainability, 2022, 14, 16190. (IF=3.889)
[8] Li Menglin, Mei Yan, He Hongwen, et al. Data-driven predictive energy management and emission optimization for hybrid electric buses considering speed and passengers prediction[J]. Journal of Cleaner Production, 2021, 304: 127-139. (中科院一区 TOP、IF= 11.072)
[9] He Hongwen, Yan Mei, Sun Chao, Peng Jiankun, Li Menglin, Jia Hui. Predictive air-conditioner control for electric buses with passenger amount variation forecast[J]. Applied Energy, 2018, 227: 249-261.(中科院一区 TOP、IF= 11.446)
[10] Mei Yan, Menglin Li, Hongwen He, et al. Deep learning for vehicle speed prediction[J]. Energy Procedia, 2018, 152: 618-623. (EI)
[11] Mei Yan, Hongwen He, Hui Jia, et al. Model Predictive Control of the Air-conditioning System for Electric Bus[J]. Energy Procedia, 2017, 105: 2415-2421. (EI)
[12] Mei Yan, Hongwen He, Chao Sun, et al. Stochastic Dynamic Programming of Air Conditioning System under Time-varying Passenger Condition for Electric Bus [J]. Energy Procedia, 2016, 104: 360-365. (EI)
[13]Boyu Guo, Jinghui Zhao, Mei Yan*, and Hongwen He. A Rapidly Trainable Data-driven Real-time Energy Management Strategy for Fuel Cell Hybrid Electric Tractor[J]. Lecture Notes in Electrical Engineering,2024. (EI期刊)
[14]郭博宇, 赵静慧,闫梅*, 冯旭,李梦林.可快速训练的燃料电池混合动力拖拉机能量管理策略[J],拖拉机与农用运输车,2024.
[15] Mei Yan, Guotong Li, Hongwen He, Hao Li. Predictive energy management strategy of fuel cell bus based on comprehensive energy consumption and compound braking proportion distribution[C], 2022CVCI, Nanjing.
[16] Mei Yan,Hongyang Xu, Menglin Li, Haoran Liu, Hongwen He. Research on Energy Management Strategy of Fuel Cell Buses In and Out of Bus Stop based on Speed Optimization[C], 2022ICEIV, Chongqing.
[17] Mei Yan, Hongyan Xu, Hongwen He, Haoran Liu. A double-layer fuzzy-logic-based energy management strategy of fuel cell hybrid electric vehicle[C], 2022GITSS, Qinhuangdao.
[18]Mei Yan, Hongwen He, Jiankun Peng, et al. Energy Management of Dual-source Electric Bus based on Wavelet Transform[C]. The International Symposium on Electric Vehicles (ISEV 2017), July 26-29, 2017, Stockholm, Sweden.
[1] Yan Mei, Xu H, Li M, et al. Hierarchical predictive energy management strategy for fuel cell buses entering bus stops scenario[J]. Green Energy and Intelligent Transportation, 2023: 100095. (科协高起点期刊)
[2] Li Menglin, Liu Haoran, Mei Yan* et al. Data-driven bi-level predictive energy management strategy for fuel cell buses with algorithmics fusion[J]. Energy Conversion and Management: X, 2023, 20: 100414. (IF= 6.3)
[3] Yan Mei, Li Guotong, Li Menglin*, He Hongwen, Xu Hongyang, Liu Haoran. Hierarchical predictive energy management of fuel cell buses with launch control integrating traffic information[J]. Energy Conversion and Management, 2022, 256: 115397. (中科院一区 TOP、IF= 11.533)
[4] Yan Mei, Xu Hongyang, Jin Lisheng, He Hongwen, Li Menglin, Liu Haoran. Co-optimization for Fuel Cell Buses Integrated with Power System and Air Conditioning via Multi-dimensional Prediction of Driving Conditions[J]. Energy Conversion and Management, 2022,271, 116339. (中科院一区 TOP、IF= 11.533)
[5] Yan Mei, He Hongwen, Li Menglin, Li, Gaopeng, Zhang, Xiaowei, Chen, Zhen. A comprehensive life cycle assessment on dual-source pure electric bus[J]. Journal of Cleaner Production, 2020, 276: 0-122702. (中科院一区 TOP、IF= 11.072)
[6] Yan Mei, Li Menglin, He Hongwen, Peng Jiankun, Sun Chao. Rule-based energy management for dual-source electric buses extracted by wavelet transform[J]. Journal of Cleaner Production, 2018, 189: 116-127.(SCI、IF= 11.072)
[7] Li Menglin, Liu Haoran, Mei Yan*, Hongyang Xu, Hongwen He. A Novel Multi-Objective Energy Management Strategy for Fuel Cell Buses Quantifying Fuel Cell Degradation as Operating Cost[J]. Sustainability, 2022, 14, 16190. (IF=3.889)
[8] Li Menglin, Mei Yan, He Hongwen, et al. Data-driven predictive energy management and emission optimization for hybrid electric buses considering speed and passengers prediction[J]. Journal of Cleaner Production, 2021, 304: 127-139. (中科院一区 TOP、IF= 11.072)
[9] He Hongwen, Yan Mei, Sun Chao, Peng Jiankun, Li Menglin, Jia Hui. Predictive air-conditioner control for electric buses with passenger amount variation forecast[J]. Applied Energy, 2018, 227: 249-261.(中科院一区 TOP、IF= 11.446)
[10] Mei Yan, Menglin Li, Hongwen He, et al. Deep learning for vehicle speed prediction[J]. Energy Procedia, 2018, 152: 618-623. (EI)
[11] Mei Yan, Hongwen He, Hui Jia, et al. Model Predictive Control of the Air-conditioning System for Electric Bus[J]. Energy Procedia, 2017, 105: 2415-2421. (EI)
[12] Mei Yan, Hongwen He, Chao Sun, et al. Stochastic Dynamic Programming of Air Conditioning System under Time-varying Passenger Condition for Electric Bus [J]. Energy Procedia, 2016, 104: 360-365. (EI)
[13]Boyu Guo, Jinghui Zhao, Mei Yan*, and Hongwen He. A Rapidly Trainable Data-driven Real-time Energy Management Strategy for Fuel Cell Hybrid Electric Tractor[J]. Lecture Notes in Electrical Engineering,2024. (EI期刊)
[14]郭博宇, 赵静慧,闫梅*, 冯旭,李梦林.可快速训练的燃料电池混合动力拖拉机能量管理策略[J],拖拉机与农用运输车,2024.
[15] Mei Yan, Guotong Li, Hongwen He, Hao Li. Predictive energy management strategy of fuel cell bus based on comprehensive energy consumption and compound braking proportion distribution[C], 2022CVCI, Nanjing.
[16] Mei Yan,Hongyang Xu, Menglin Li, Haoran Liu, Hongwen He. Research on Energy Management Strategy of Fuel Cell Buses In and Out of Bus Stop based on Speed Optimization[C], 2022ICEIV, Chongqing.
[17] Mei Yan, Hongyan Xu, Hongwen He, Haoran Liu. A double-layer fuzzy-logic-based energy management strategy of fuel cell hybrid electric vehicle[C], 2022GITSS, Qinhuangdao.
[18]Mei Yan, Hongwen He, Jiankun Peng, et al. Energy Management of Dual-source Electric Bus based on Wavelet Transform[C]. The International Symposium on Electric Vehicles (ISEV 2017), July 26-29, 2017, Stockholm, Sweden.
[1] Yan Mei, Xu H, Li M, et al. Hierarchical predictive energy management strategy for fuel cell buses entering bus stops scenario[J]. Green Energy and Intelligent Transportation, 2023: 100095. (科协高起点期刊)
[2] Li Menglin, Liu Haoran, Mei Yan* et al. Data-driven bi-level predictive energy management strategy for fuel cell buses with algorithmics fusion[J]. Energy Conversion and Management: X, 2023, 20: 100414. (IF= 6.3)
[3] Yan Mei, Li Guotong, Li Menglin*, He Hongwen, Xu Hongyang, Liu Haoran. Hierarchical predictive energy management of fuel cell buses with launch control integrating traffic information[J]. Energy Conversion and Management, 2022, 256: 115397. (中科院一区 TOP、IF= 11.533)
[4] Yan Mei, Xu Hongyang, Jin Lisheng, He Hongwen, Li Menglin, Liu Haoran. Co-optimization for Fuel Cell Buses Integrated with Power System and Air Conditioning via Multi-dimensional Prediction of Driving Conditions[J]. Energy Conversion and Management, 2022,271, 116339. (中科院一区 TOP、IF= 11.533)
[5] Yan Mei, He Hongwen, Li Menglin, Li, Gaopeng, Zhang, Xiaowei, Chen, Zhen. A comprehensive life cycle assessment on dual-source pure electric bus[J]. Journal of Cleaner Production, 2020, 276: 0-122702. (中科院一区 TOP、IF= 11.072)
[6] Yan Mei, Li Menglin, He Hongwen, Peng Jiankun, Sun Chao. Rule-based energy management for dual-source electric buses extracted by wavelet transform[J]. Journal of Cleaner Production, 2018, 189: 116-127.(SCI、IF= 11.072)
[7] Li Menglin, Liu Haoran, Mei Yan*, Hongyang Xu, Hongwen He. A Novel Multi-Objective Energy Management Strategy for Fuel Cell Buses Quantifying Fuel Cell Degradation as Operating Cost[J]. Sustainability, 2022, 14, 16190. (IF=3.889)
[8] Li Menglin, Mei Yan, He Hongwen, et al. Data-driven predictive energy management and emission optimization for hybrid electric buses considering speed and passengers prediction[J]. Journal of Cleaner Production, 2021, 304: 127-139. (中科院一区 TOP、IF= 11.072)
[9] He Hongwen, Yan Mei, Sun Chao, Peng Jiankun, Li Menglin, Jia Hui. Predictive air-conditioner control for electric buses with passenger amount variation forecast[J]. Applied Energy, 2018, 227: 249-261.(中科院一区 TOP、IF= 11.446)
[10] Mei Yan, Menglin Li, Hongwen He, et al. Deep learning for vehicle speed prediction[J]. Energy Procedia, 2018, 152: 618-623. (EI)
[11] Mei Yan, Hongwen He, Hui Jia, et al. Model Predictive Control of the Air-conditioning System for Electric Bus[J]. Energy Procedia, 2017, 105: 2415-2421. (EI)
[12] Mei Yan, Hongwen He, Chao Sun, et al. Stochastic Dynamic Programming of Air Conditioning System under Time-varying Passenger Condition for Electric Bus [J]. Energy Procedia, 2016, 104: 360-365. (EI)
[13]Boyu Guo, Jinghui Zhao, Mei Yan*, and Hongwen He. A Rapidly Trainable Data-driven Real-time Energy Management Strategy for Fuel Cell Hybrid Electric Tractor[J]. Lecture Notes in Electrical Engineering,2024. (EI期刊)
[14]郭博宇, 赵静慧,闫梅*, 冯旭,李梦林.可快速训练的燃料电池混合动力拖拉机能量管理策略[J],拖拉机与农用运输车,2024.
[15] Mei Yan, Guotong Li, Hongwen He, Hao Li. Predictive energy management strategy of fuel cell bus based on comprehensive energy consumption and compound braking proportion distribution[C], 2022CVCI, Nanjing.
[16] Mei Yan,Hongyang Xu, Menglin Li, Haoran Liu, Hongwen He. Research on Energy Management Strategy of Fuel Cell Buses In and Out of Bus Stop based on Speed Optimization[C], 2022ICEIV, Chongqing.
[17] Mei Yan, Hongyan Xu, Hongwen He, Haoran Liu. A double-layer fuzzy-logic-based energy management strategy of fuel cell hybrid electric vehicle[C], 2022GITSS, Qinhuangdao.
[18]Mei Yan, Hongwen He, Jiankun Peng, et al. Energy Management of Dual-source Electric Bus based on Wavelet Transform[C]. The International Symposium on Electric Vehicles (ISEV 2017), July 26-29, 2017, Stockholm, Sweden.
[1] Yan Mei, Xu H, Li M, et al. Hierarchical predictive energy management strategy for fuel cell buses entering bus stops scenario[J]. Green Energy and Intelligent Transportation, 2023: 100095. (科协高起点期刊)
[2] Li Menglin, Liu Haoran, Mei Yan* et al. Data-driven bi-level predictive energy management strategy for fuel cell buses with algorithmics fusion[J]. Energy Conversion and Management: X, 2023, 20: 100414. (IF= 6.3)
[3] Yan Mei, Li Guotong, Li Menglin*, He Hongwen, Xu Hongyang, Liu Haoran. Hierarchical predictive energy management of fuel cell buses with launch control integrating traffic information[J]. Energy Conversion and Management, 2022, 256: 115397. (中科院一区 TOP、IF= 11.533)
[4] Yan Mei, Xu Hongyang, Jin Lisheng, He Hongwen, Li Menglin, Liu Haoran. Co-optimization for Fuel Cell Buses Integrated with Power System and Air Conditioning via Multi-dimensional Prediction of Driving Conditions[J]. Energy Conversion and Management, 2022,271, 116339. (中科院一区 TOP、IF= 11.533)
[5] Yan Mei, He Hongwen, Li Menglin, Li, Gaopeng, Zhang, Xiaowei, Chen, Zhen. A comprehensive life cycle assessment on dual-source pure electric bus[J]. Journal of Cleaner Production, 2020, 276: 0-122702. (中科院一区 TOP、IF= 11.072)
[6] Yan Mei, Li Menglin, He Hongwen, Peng Jiankun, Sun Chao. Rule-based energy management for dual-source electric buses extracted by wavelet transform[J]. Journal of Cleaner Production, 2018, 189: 116-127.(SCI、IF= 11.072)
[7] Li Menglin, Liu Haoran, Mei Yan*, Hongyang Xu, Hongwen He. A Novel Multi-Objective Energy Management Strategy for Fuel Cell Buses Quantifying Fuel Cell Degradation as Operating Cost[J]. Sustainability, 2022, 14, 16190. (IF=3.889)
[8] Li Menglin, Mei Yan, He Hongwen, et al. Data-driven predictive energy management and emission optimization for hybrid electric buses considering speed and passengers prediction[J]. Journal of Cleaner Production, 2021, 304: 127-139. (中科院一区 TOP、IF= 11.072)
[9] He Hongwen, Yan Mei, Sun Chao, Peng Jiankun, Li Menglin, Jia Hui. Predictive air-conditioner control for electric buses with passenger amount variation forecast[J]. Applied Energy, 2018, 227: 249-261.(中科院一区 TOP、IF= 11.446)
[10] Mei Yan, Menglin Li, Hongwen He, et al. Deep learning for vehicle speed prediction[J]. Energy Procedia, 2018, 152: 618-623. (EI)
[11] Mei Yan, Hongwen He, Hui Jia, et al. Model Predictive Control of the Air-conditioning System for Electric Bus[J]. Energy Procedia, 2017, 105: 2415-2421. (EI)
[12] Mei Yan, Hongwen He, Chao Sun, et al. Stochastic Dynamic Programming of Air Conditioning System under Time-varying Passenger Condition for Electric Bus [J]. Energy Procedia, 2016, 104: 360-365. (EI)
[13]Boyu Guo, Jinghui Zhao, Mei Yan*, and Hongwen He. A Rapidly Trainable Data-driven Real-time Energy Management Strategy for Fuel Cell Hybrid Electric Tractor[J]. Lecture Notes in Electrical Engineering,2024. (EI期刊)
[14]郭博宇, 赵静慧,闫梅*, 冯旭,李梦林.可快速训练的燃料电池混合动力拖拉机能量管理策略[J],拖拉机与农用运输车,2024.
[15] Mei Yan, Guotong Li, Hongwen He, Hao Li. Predictive energy management strategy of fuel cell bus based on comprehensive energy consumption and compound braking proportion distribution[C], 2022CVCI, Nanjing.
[16] Mei Yan,Hongyang Xu, Menglin Li, Haoran Liu, Hongwen He. Research on Energy Management Strategy of Fuel Cell Buses In and Out of Bus Stop based on Speed Optimization[C], 2022ICEIV, Chongqing.
[17] Mei Yan, Hongyan Xu, Hongwen He, Haoran Liu. A double-layer fuzzy-logic-based energy management strategy of fuel cell hybrid electric vehicle[C], 2022GITSS, Qinhuangdao.
[18]Mei Yan, Hongwen He, Jiankun Peng, et al. Energy Management of Dual-source Electric Bus based on Wavelet Transform[C]. The International Symposium on Electric Vehicles (ISEV 2017), July 26-29, 2017, Stockholm, Sweden.
[1] Yan Mei, Xu H, Li M, et al. Hierarchical predictive energy management strategy for fuel cell buses entering bus stops scenario[J]. Green Energy and Intelligent Transportation, 2023: 100095. (科协高起点期刊)
[2] Li Menglin, Liu Haoran, Mei Yan* et al. Data-driven bi-level predictive energy management strategy for fuel cell buses with algorithmics fusion[J]. Energy Conversion and Management: X, 2023, 20: 100414. (IF= 6.3)
[3] Yan Mei, Li Guotong, Li Menglin*, He Hongwen, Xu Hongyang, Liu Haoran. Hierarchical predictive energy management of fuel cell buses with launch control integrating traffic information[J]. Energy Conversion and Management, 2022, 256: 115397. (中科院一区 TOP、IF= 11.533)
[4] Yan Mei, Xu Hongyang, Jin Lisheng, He Hongwen, Li Menglin, Liu Haoran. Co-optimization for Fuel Cell Buses Integrated with Power System and Air Conditioning via Multi-dimensional Prediction of Driving Conditions[J]. Energy Conversion and Management, 2022,271, 116339. (中科院一区 TOP、IF= 11.533)
[5] Yan Mei, He Hongwen, Li Menglin, Li, Gaopeng, Zhang, Xiaowei, Chen, Zhen. A comprehensive life cycle assessment on dual-source pure electric bus[J]. Journal of Cleaner Production, 2020, 276: 0-122702. (中科院一区 TOP、IF= 11.072)
[6] Yan Mei, Li Menglin, He Hongwen, Peng Jiankun, Sun Chao. Rule-based energy management for dual-source electric buses extracted by wavelet transform[J]. Journal of Cleaner Production, 2018, 189: 116-127.(SCI、IF= 11.072)
[7] Li Menglin, Liu Haoran, Mei Yan*, Hongyang Xu, Hongwen He. A Novel Multi-Objective Energy Management Strategy for Fuel Cell Buses Quantifying Fuel Cell Degradation as Operating Cost[J]. Sustainability, 2022, 14, 16190. (IF=3.889)
[8] Li Menglin, Mei Yan, He Hongwen, et al. Data-driven predictive energy management and emission optimization for hybrid electric buses considering speed and passengers prediction[J]. Journal of Cleaner Production, 2021, 304: 127-139. (中科院一区 TOP、IF= 11.072)
[9] He Hongwen, Yan Mei, Sun Chao, Peng Jiankun, Li Menglin, Jia Hui. Predictive air-conditioner control for electric buses with passenger amount variation forecast[J]. Applied Energy, 2018, 227: 249-261.(中科院一区 TOP、IF= 11.446)
[10] Mei Yan, Menglin Li, Hongwen He, et al. Deep learning for vehicle speed prediction[J]. Energy Procedia, 2018, 152: 618-623. (EI)
[11] Mei Yan, Hongwen He, Hui Jia, et al. Model Predictive Control of the Air-conditioning System for Electric Bus[J]. Energy Procedia, 2017, 105: 2415-2421. (EI)
[12] Mei Yan, Hongwen He, Chao Sun, et al. Stochastic Dynamic Programming of Air Conditioning System under Time-varying Passenger Condition for Electric Bus [J]. Energy Procedia, 2016, 104: 360-365. (EI)
[13]Boyu Guo, Jinghui Zhao, Mei Yan*, and Hongwen He. A Rapidly Trainable Data-driven Real-time Energy Management Strategy for Fuel Cell Hybrid Electric Tractor[J]. Lecture Notes in Electrical Engineering,2024. (EI期刊)
[14]郭博宇, 赵静慧,闫梅*, 冯旭,李梦林.可快速训练的燃料电池混合动力拖拉机能量管理策略[J],拖拉机与农用运输车,2024.
[15] Mei Yan, Guotong Li, Hongwen He, Hao Li. Predictive energy management strategy of fuel cell bus based on comprehensive energy consumption and compound braking proportion distribution[C], 2022CVCI, Nanjing.
[16] Mei Yan,Hongyang Xu, Menglin Li, Haoran Liu, Hongwen He. Research on Energy Management Strategy of Fuel Cell Buses In and Out of Bus Stop based on Speed Optimization[C], 2022ICEIV, Chongqing.
[17] Mei Yan, Hongyan Xu, Hongwen He, Haoran Liu. A double-layer fuzzy-logic-based energy management strategy of fuel cell hybrid electric vehicle[C], 2022GITSS, Qinhuangdao.
[18]Mei Yan, Hongwen He, Jiankun Peng, et al. Energy Management of Dual-source Electric Bus based on Wavelet Transform[C]. The International Symposium on Electric Vehicles (ISEV 2017), July 26-29, 2017, Stockholm, Sweden.
[1] Yan Mei, Xu H, Li M, et al. Hierarchical predictive energy management strategy for fuel cell buses entering bus stops scenario[J]. Green Energy and Intelligent Transportation, 2023: 100095. (科协高起点期刊)
[2] Li Menglin, Liu Haoran, Mei Yan* et al. Data-driven bi-level predictive energy management strategy for fuel cell buses with algorithmics fusion[J]. Energy Conversion and Management: X, 2023, 20: 100414. (IF= 6.3)
[3] Yan Mei, Li Guotong, Li Menglin*, He Hongwen, Xu Hongyang, Liu Haoran. Hierarchical predictive energy management of fuel cell buses with launch control integrating traffic information[J]. Energy Conversion and Management, 2022, 256: 115397. (中科院一区 TOP、IF= 11.533)
[4] Yan Mei, Xu Hongyang, Jin Lisheng, He Hongwen, Li Menglin, Liu Haoran. Co-optimization for Fuel Cell Buses Integrated with Power System and Air Conditioning via Multi-dimensional Prediction of Driving Conditions[J]. Energy Conversion and Management, 2022,271, 116339. (中科院一区 TOP、IF= 11.533)
[5] Yan Mei, He Hongwen, Li Menglin, Li, Gaopeng, Zhang, Xiaowei, Chen, Zhen. A comprehensive life cycle assessment on dual-source pure electric bus[J]. Journal of Cleaner Production, 2020, 276: 0-122702. (中科院一区 TOP、IF= 11.072)
[6] Yan Mei, Li Menglin, He Hongwen, Peng Jiankun, Sun Chao. Rule-based energy management for dual-source electric buses extracted by wavelet transform[J]. Journal of Cleaner Production, 2018, 189: 116-127.(SCI、IF= 11.072)
[7] Li Menglin, Liu Haoran, Mei Yan*, Hongyang Xu, Hongwen He. A Novel Multi-Objective Energy Management Strategy for Fuel Cell Buses Quantifying Fuel Cell Degradation as Operating Cost[J]. Sustainability, 2022, 14, 16190. (IF=3.889)
[8] Li Menglin, Mei Yan, He Hongwen, et al. Data-driven predictive energy management and emission optimization for hybrid electric buses considering speed and passengers prediction[J]. Journal of Cleaner Production, 2021, 304: 127-139. (中科院一区 TOP、IF= 11.072)
[9] He Hongwen, Yan Mei, Sun Chao, Peng Jiankun, Li Menglin, Jia Hui. Predictive air-conditioner control for electric buses with passenger amount variation forecast[J]. Applied Energy, 2018, 227: 249-261.(中科院一区 TOP、IF= 11.446)
[10] Mei Yan, Menglin Li, Hongwen He, et al. Deep learning for vehicle speed prediction[J]. Energy Procedia, 2018, 152: 618-623. (EI)
[11] Mei Yan, Hongwen He, Hui Jia, et al. Model Predictive Control of the Air-conditioning System for Electric Bus[J]. Energy Procedia, 2017, 105: 2415-2421. (EI)
[12] Mei Yan, Hongwen He, Chao Sun, et al. Stochastic Dynamic Programming of Air Conditioning System under Time-varying Passenger Condition for Electric Bus [J]. Energy Procedia, 2016, 104: 360-365. (EI)
[13]Boyu Guo, Jinghui Zhao, Mei Yan*, and Hongwen He. A Rapidly Trainable Data-driven Real-time Energy Management Strategy for Fuel Cell Hybrid Electric Tractor[J]. Lecture Notes in Electrical Engineering,2024. (EI期刊)
[14]郭博宇, 赵静慧,闫梅*, 冯旭,李梦林.可快速训练的燃料电池混合动力拖拉机能量管理策略[J],拖拉机与农用运输车,2024.
[15] Mei Yan, Guotong Li, Hongwen He, Hao Li. Predictive energy management strategy of fuel cell bus based on comprehensive energy consumption and compound braking proportion distribution[C], 2022CVCI, Nanjing.
[16] Mei Yan,Hongyang Xu, Menglin Li, Haoran Liu, Hongwen He. Research on Energy Management Strategy of Fuel Cell Buses In and Out of Bus Stop based on Speed Optimization[C], 2022ICEIV, Chongqing.
[17] Mei Yan, Hongyan Xu, Hongwen He, Haoran Liu. A double-layer fuzzy-logic-based energy management strategy of fuel cell hybrid electric vehicle[C], 2022GITSS, Qinhuangdao.
[18]Mei Yan, Hongwen He, Jiankun Peng, et al. Energy Management of Dual-source Electric Bus based on Wavelet Transform[C]. The International Symposium on Electric Vehicles (ISEV 2017), July 26-29, 2017, Stockholm, Sweden.
[1] Yan Mei, Xu H, Li M, et al. Hierarchical predictive energy management strategy for fuel cell buses entering bus stops scenario[J]. Green Energy and Intelligent Transportation, 2023: 100095. (科协高起点期刊)
[2] Li Menglin, Liu Haoran, Mei Yan* et al. Data-driven bi-level predictive energy management strategy for fuel cell buses with algorithmics fusion[J]. Energy Conversion and Management: X, 2023, 20: 100414. (IF= 6.3)
[3] Yan Mei, Li Guotong, Li Menglin*, He Hongwen, Xu Hongyang, Liu Haoran. Hierarchical predictive energy management of fuel cell buses with launch control integrating traffic information[J]. Energy Conversion and Management, 2022, 256: 115397. (中科院一区 TOP、IF= 11.533)
[4] Yan Mei, Xu Hongyang, Jin Lisheng, He Hongwen, Li Menglin, Liu Haoran. Co-optimization for Fuel Cell Buses Integrated with Power System and Air Conditioning via Multi-dimensional Prediction of Driving Conditions[J]. Energy Conversion and Management, 2022,271, 116339. (中科院一区 TOP、IF= 11.533)
[5] Yan Mei, He Hongwen, Li Menglin, Li, Gaopeng, Zhang, Xiaowei, Chen, Zhen. A comprehensive life cycle assessment on dual-source pure electric bus[J]. Journal of Cleaner Production, 2020, 276: 0-122702. (中科院一区 TOP、IF= 11.072)
[6] Yan Mei, Li Menglin, He Hongwen, Peng Jiankun, Sun Chao. Rule-based energy management for dual-source electric buses extracted by wavelet transform[J]. Journal of Cleaner Production, 2018, 189: 116-127.(SCI、IF= 11.072)
[7] Li Menglin, Liu Haoran, Mei Yan*, Hongyang Xu, Hongwen He. A Novel Multi-Objective Energy Management Strategy for Fuel Cell Buses Quantifying Fuel Cell Degradation as Operating Cost[J]. Sustainability, 2022, 14, 16190. (IF=3.889)
[8] Li Menglin, Mei Yan, He Hongwen, et al. Data-driven predictive energy management and emission optimization for hybrid electric buses considering speed and passengers prediction[J]. Journal of Cleaner Production, 2021, 304: 127-139. (中科院一区 TOP、IF= 11.072)
[9] He Hongwen, Yan Mei, Sun Chao, Peng Jiankun, Li Menglin, Jia Hui. Predictive air-conditioner control for electric buses with passenger amount variation forecast[J]. Applied Energy, 2018, 227: 249-261.(中科院一区 TOP、IF= 11.446)
[10] Mei Yan, Menglin Li, Hongwen He, et al. Deep learning for vehicle speed prediction[J]. Energy Procedia, 2018, 152: 618-623. (EI)
[11] Mei Yan, Hongwen He, Hui Jia, et al. Model Predictive Control of the Air-conditioning System for Electric Bus[J]. Energy Procedia, 2017, 105: 2415-2421. (EI)
[12] Mei Yan, Hongwen He, Chao Sun, et al. Stochastic Dynamic Programming of Air Conditioning System under Time-varying Passenger Condition for Electric Bus [J]. Energy Procedia, 2016, 104: 360-365. (EI)
[13]Boyu Guo, Jinghui Zhao, Mei Yan*, and Hongwen He. A Rapidly Trainable Data-driven Real-time Energy Management Strategy for Fuel Cell Hybrid Electric Tractor[J]. Lecture Notes in Electrical Engineering,2024. (EI期刊)
[14]郭博宇, 赵静慧,闫梅*, 冯旭,李梦林.可快速训练的燃料电池混合动力拖拉机能量管理策略[J],拖拉机与农用运输车,2024.
[15] Mei Yan, Guotong Li, Hongwen He, Hao Li. Predictive energy management strategy of fuel cell bus based on comprehensive energy consumption and compound braking proportion distribution[C], 2022CVCI, Nanjing.
[16] Mei Yan,Hongyang Xu, Menglin Li, Haoran Liu, Hongwen He. Research on Energy Management Strategy of Fuel Cell Buses In and Out of Bus Stop based on Speed Optimization[C], 2022ICEIV, Chongqing.
[17] Mei Yan, Hongyan Xu, Hongwen He, Haoran Liu. A double-layer fuzzy-logic-based energy management strategy of fuel cell hybrid electric vehicle[C], 2022GITSS, Qinhuangdao.
[18]Mei Yan, Hongwen He, Jiankun Peng, et al. Energy Management of Dual-source Electric Bus based on Wavelet Transform[C]. The International Symposium on Electric Vehicles (ISEV 2017), July 26-29, 2017, Stockholm, Sweden.
