——2024年——

Qingcheng Lin, Huiling Cai, Hanwei Liu, Xuefeng Li*, Hui Xiao*, A novel ultra-short-term wind power prediction model jointly driven by multiple algorithm optimization and adaptive selection, Energy, 288, 129724, 2024.2

——2023年——

期刊论文:

1. Lin Qingcheng, Zhang Chi, Cai Huiling, Li Xuefeng, Xiao Hui*, Urban Night Lighting Evaluation System and Case Study: Blending Popular Contemporary Elements, Cultural Traditions, and Advanced Lighting Technologies, Engineering Construction and Architectural Management, DOI: 10.1108/ECAM-11-2021-1056，2023.1

学术会议：

1. Na Liu, Yiming Chen, Yexing Yang, Jing Ji, Hui Xiao, Xuefeng Li*, Deformation initial value estimation method based on an improved SIFT algorithm, 4th International Conference on Sensing, Measurement & Data Analytics in the era of Artificial Intelligence (ICSMD 2022), 931626, Xi'an, 11.02-11.04, Best Paper奖

2. Zijun Li, Jinpeng Yu, Weixuan Kong, Na Liu, Xuefeng Li, Hui Xiao*, Usage of ResNet18 with CBAM Attention Mechanisms in Facial Emotion Recognition,  4th International Conference on Sensing, Measurement & Data Analytics in the era of Artificial Intelligence (ICSMD 2022), 931626, Xi'an, 11.02-11.04

其他：

——2022年——

期刊论文:

1. Hanwei Liu, Huiling Cai, Qincheng Lin, Xiwen Zhang, Xuefeng Li*, Hui Xiao*, FEDA: Fine-grained emotion difference analysis for facial expression recognition, Biomedical Signal Processing and Control, 79(2), 104209, 2022.9

2. Hanwei Liu, Wenchao Li, Huiling Cai, Qingcheng Lin, Xuefeng Li*, andHui Xiao*, Research on Location Selection Model of 5G Micro Base Station Based on Smart Street Lighting System, Mathematics 2022, 10(15), 2627, 2022.7

3. Qingcheng  Lin, Shiqi  Yu, Fuyong  Lyu, Hui  Xiao, Xuefeng  Li*, Optimized Denoising Method for Weak Acoustic Emission Signal in Partial Discharge Detection, IEEE Transactions on Dielectrics and Electrical Insulation, 29(4), 1409-1416, 2022.6

4. Hanwei Liu, Huiling Cai, Qingcheng Lin, Xuefeng Li*, Hui Xiao*, Adaptive multilayer perceptual attention network for facial expression recognition, IEEE Transactions on Circuits and Systems for Video Technology, 32(9), 6253-6266, 2022.4

5. 曹合心, 赵亮, 李雪峰*. 图神经网络在Text-to-SQL解析中的技术研究[J]. 计算机科学, 2022, 49(4): 110-115. 

学术会议：

——2021年——

期刊论文:

1. 朱子东, 吕辅勇*, 李雪峰, 融合MFCC特征的声发射故障检测, 仪表技术与传感器, 2021, (09), 121-125

2. Shiqi Hou, Yongrui Qin, Jiaxin Gao, Fuyong Lyu, and Xuefeng Li*, Intelligent Monitoring System Based on Optical Fiber Acoustic Emission Sensor and Its Application in Partial Discharge Diagnosis of Gas-insulated Switchgear, Sensors and Materials, 33(4), 1127-1136, 2021.4

3. Shiqi Yu, Chunya Qian, Qi Zhou, Lujie Wang, Hui Xiao, Song Ye, Xuefeng Li*, Wide-range Optical Fiber Temperature Sensor Based on Up-conversion Luminescent Nanocrystals, Optics letters, Opt. Lett. 46(7), 1600-1603, 2021.4

4. Hui Xiao*, Huiling Cai, Xuefeng Li, Non-visual effects of indoor light environment on humans: A review, Physiology & Behavior, Vol.228, 113195, 2021.1

学术会议：

1. Huiling Cai, Qingcheng Lin, Hanwei Liu, Shiqi Yu, Xuefeng Li, Hui Xiao, The effects of indoor light environment on mood and alertness through physiological measurements, 2nd International Conference on Sensing, Measurement & Data Analytics in the era of Artificial Intelligence (ICSMD 2021), No. 916036, Nanjing, 2021.10.21-23

2. Qingcheng Lin, Huiling Cai, Hanwei Liu, Guangyu Liu, Xuefeng Li, Hui Xiao, A novel hybrid models bsaed on Gaussian Process Regression for short-term wind power forecasting, ICSMD 2021, No. 916033, Nanjing, 2021.10.21-23

3. Maocang Tian, Hanwei Liu, Zheng Ruan, Qingfang Li, Xuefeng Li, Hui Xiao, Method for Denoising Hyperspectral Images Based on Low Rank Theory-Sparse Representation, ICSMD 2021, No. 916070 , Nanjing, 2021.10.21-23

——2020年——

期刊论文:

1. Li Xuefeng, Zang Han, Qian Chunya, Ou Yanghui, Shen Runjie, and Xiao Hui*, A New Type of Structure of Optical Fiber Pressure Sensor Based on Polarization Modulation, Optics and Lasers in Engineering, 130:106095, 2020.7

2. 郭壮, 覃泳睿, 唐骏龙, 谢旭光, 李雪峰*, 基于异质平均场复杂网络模型的新型冠状病毒传染性分析, 系统仿真技术, 16(2):, 2020.6

3. Li Xuefeng, Qian Chunya, Shen Runjie, Xiao Hui, and Ye Song*, Study of Optical Fiber Cryogenic Temperature Sensor for Quench Detection of High Temperature Superconductors, Optics Express, 28(6): 8233-8239, 2020.3

学术会议：

1. Hanwei Liu, Huiling Cai, Qingcheng Lin, Xuefeng Li, Hui Xiao, Lei Wang, Emotion reclassification model based on clustering algorithm, 5GAI INSAI Connected Global Forum & 2nd International Conference on Artificial Intelligence and Advanced Manufacturing (AIAM2020) , 上海， 2020.12.26

2. 于世奇, 李雪峰, 基于光纤声发射传感器的故障识别系统研究, 第二届全国光子技术论坛, No. gzconf-2020-000584, 广州, 2020.11.27-30

3. Shiqi Yu, Yongrui Qin, Jiaxin Gao, Shiqi Hou, Fuyong Lyu, Xuefeng Li, Performance improvement of wavelet noise reduction based on new threshold function, International Conference on Sensing, Measurement & Data Analytics in the era of Artificial Intelligenc (ICSMD2020), No. 875172, Xian, 2020.10.15-17

4. Fuyong Lyu, Zhouhang Yang, Lujie Wang, Qi Zhou, Shiqi Hou, Xuefeng Li, Behavior Anomaly Detection Fused with Features of Mel Frequency Cepstrum Coefficients, ICSMD2020, No. 875465, Xian, 2020.10.15-17

5. 郭壮, 覃泳睿, 唐骏龙, 李雪峰, 基于异质平均场复杂网络的传染病动力学模型研究, 第39届中国控制会议 (2020CCCS), No.1661, 沈阳, 2020.7.27-29

——2019——

期刊论文:

1. Li Xuefeng, Cao Hexin, Chang Zhiming, Zhang Xinyu, Zhao Weishi, and Shen Runjie*, A Fiber Optic Ultrasonic Sensor Using Polarization-maintaining Fiber for Partial Discharge Monitoring, Sensors and Materials, 31(5):1407-1417, 2019.5

2. Shen Runjie, Ou Yanghui, Zhou Ying, Zhao Weishi, and Li Xuefeng*, Partial Discharge Detection and Characteristics of GIS Free Metal Particles Based on Acoustic Emission, Sensors and Materials, 31(5):1467-1475, 2019.5

3. Cai Huiling, Shen Shoupeng, Lin Qingcheng, Li Xuefeng*,and Xiao Hui*, Predicting the Energy Consumption of Residential Buildings for Regional Electricity Supply-side and Demand-side Management, IEEE Access, 7(1): 30386-30397, 2019.3

4. Liao Huazhen, Ye Song*, Shen Runjie, Li Xuefeng, and Wang Deping, Effective formation of Ag nanoclusters and efficient energy transfer to Yb3+ions in borosilicate glasses for photovoltaic application, Materials Research Bulletin, 111:113-117, 2019.3

5. 曹合心, 张瀚, 吕辅勇, 赵伟时, 李雪峰, 保偏光纤双折射度压力敏感性分析, 系统仿真技术, 15(2):87-92, 2019.5

6. 方景, 殷涛, 王坦, 陶涛, 李雪峰, 李文超, “5G+智慧灯杆”在智慧城市中的应用探讨, 照明工程学报, 30(4):6-9, 2019.04

7. 罗彩姿, 蔺倾程, 李雪峰, 肖辉, 办公空间健康光环境的控制模型, 照明工程学报, 30(2):87-93&137, 2019.02

学术会议：

1. 吕辅勇, 张瀚, 曹合心, 赵伟时, 李雪峰, 基于光纤传感器的绝缘放电检测技术研究, 中国自动化大会2019 (CAC2019), No.174, 杭州, 2019.11.22-24

2. 张瀚, 吕辅勇, 曹合心, 赵伟时, 李雪峰, 基于高双折射特性光子晶体光纤的压力传感器研究, 中国自动化大会2019 (CAC2019), No.180, 杭州, 2019.11.22-24

3. 汪韩, 唐骏龙, 张瀚, 李雪峰, 肖辉, 基于红外热成像的行车预警系统研究, 中国自动化大会2019 (CAC2019), No.704, 杭州, 2019.11.22-24

其他：

1. Guest editor, Special Issue on Sensing, Interaction, and Fusion towards Smart Cities, Sensors and Materials, Vol. 31, No. 6(3), 2019.6

——2018——

期刊论文:

1. Li Xuefeng, Qian Chunya, Shen Runjie, Xiao Hui, Zhao Weishi, and Ye Song*, A Fluorescence Fiber Optic Temperature Sensor Based on Fused Upconversion Luminescent Nanoparticles, Optics Express, 26(23): 30753-30761, 2018.11

2. Li Xuefeng, Zhang Yin, Cao Hexin, Zhang Xinyu, and Shen Runjie*, Highly Sensitive Acoustic Emission Sensor Based on Polarization-maintaining and Absorption-reducing Polarization-maintaining Fiber, Sensors and Materials, 30(5):1145-1153, 2018.5

学术会议：

1. Cao Hexin, Zhang Yin, Shen Runjie and Li Xuefeng, A Fiber Optic Ultrasonic Sensor Using Polarization-maintaining Fiber for Partial Discharge Monitoring, International Multi-Conference on Engineering and Technology Innovation 2018 (IMETI2018), Manuscript No.: D8002, Taoyuan, Taiwan, 2018.11.2-6

2. Qian Chunya, Cao Hexin, Shen Runjie and Li Xuefeng, A Fiber Optic Temperature Sensor Based on Upconversion Luminescent Material, International Multi-Conference on Engineering and Technology Innovation 2018 (IMETI2018), Manuscript No.: SH8012, Taiwan, 2018.11.2-6

3. Ou Yanghui, Liu Nian, Shen Runjie and Li Xuefeng, Partial Discharge Detection And Characteristics Of GIS Free Metal Particles Based On Acoustic Emission, International Multi-Conference on Engineering and Technology Innovation 2018 (IMETI2018), Manuscript No.: O8015, Taiwan, 2018.11.2-6

4. Liu Nian, Zhang Han, Shen Runjie and Li Xuefeng, An Improved Semi-blind Non-negative Matrix Factorization Algorithm for Spectral Unmixing of Hyperspectral Venous Image, International Multi-Conference on Engineering and Technology Innovation 2018 (IMETI2018), Manuscript No.: F8038,Taiwan, 2018.11.2-6

——2017——

期刊论文:

1. Li Xuefeng, Shao Yujiao, Yu Yuan, Zhang Yin, and Shen Runjie* , Characteristic of Acoustic Emission Signal from Stress Corrosion Cracking in Low-Carbon Nitrogen-Enhanced Stainless Steel, Sensors and Materials, 29(9):1305-1313, 2017.9

学术会议：

1. 张音, 李雪峰, 沈润杰, 气体绝缘组合电器局部放电监测系统的设计与实现, 第36届中国控制会议, 大连, 2017.7.26-28

其他：

2. 《基于窄带物联网（NB-IoT）的道路照明智能控制系统技术规范》（T/CSA 052-2018/CIES 015-2017），主要起草人, 2017

3. Pawlat Joanna*, Li Xuefeng, Sugiyama Tadashi, Matsuo Takahiro, Liang Jinxing, Zimin Yura; Zimin Lev, Ikezawa Satoshi, and Ueda Toshitsugu, Chapter 8 Photonic Bandgap Fibre Based Gas Sensing, Fiber Optic Sensors: Current Status and Future Possibilities, Springer International Publishing AG, 2017

——2016——

期刊论文:

1. Li Xuefeng*, Shao Yujiao, Yu Yuan, Zhang Yin, and Wei Shaowen, A Highly Sensitive Fiber-optic Fabry-Perot Interferometer Based on Internal Reflection Mirrors for Refractive Index Measurement, Sensors-Basel, 16(6), 794, 2016.5

学术会议：

1. Yu Yuan, Shao Yujiao, Zhang Yin, Wei Shaowen and Li Xuefeng, Design and Analysis of a New Type of Pressure Sensor based on the High-birefringent Photonic Crystal Fiber, The 10th International Conference on Sensing Technology (ICST 2016), No. 1570284158, Nanjing China, 2016.11.11-13

2. Shao Yujiao, Yu Yuan, Zhang Yin, Wei Shaowen and Li Xuefeng, Analysis of Acoustic Emission Signal Characteristics based on the Crack Pattern of Stress Corrosion Cracking, The 10th International Conference on Sensing Technology (ICST 2016), No. 1570284226, Nanjing China, 2016.11.11-13

3. Wei Shaowen, Zhang Yin, and Li Xuefeng, High-visibility Multifunctional Sensor Based on Multiple-resonant Cavity of Photonic Crystal, 2016 IEEE Information Technology, Networking, Electronic and Automation Control Conference (ITNEC 2016), No. M181, Chongqing China, 2016.5.22-23

——2015前——

期刊论文:

1. Li Xuefeng*，Liang Jinxing，and Ueda Toshitsugu, Applied technique of focused ion beam milling based on microstructure of photonic bandgap fiber，International Journal of Advanced Manufacturing Technology, 68 (1-4):465-471, 2013

2. Li Xuefeng*, Liang Jinxing, Lin Shuo, Zimin Yury, Zhang Yupeng, and Ueda Toshitsugu, NIR Spectrum Analysis of Natural Gas Based on Hollow-Core Photonic Bandgap Fiber, IEEE sensors Journal, 12(7):2362-2367, 2012.7

3. Li Xuefeng*, Lin Shuo, Liang Jinxing, Oigawa Hiroshi and Ueda Toshitsugu, High Sensitivity Fiber-Optic Fabry-Perot Interferometer Temperature sensor, Japanese Journal of Applied Physics, 51(6):06FL10, 2012.6

4. Li Xuefeng*, Lin Shuo, Liang Jinxing, Oigawa Hiroshi and Ueda Toshitsugu,, Fiber-Optic Temperature Sensor Based on Difference of Thermal Expansion Coefficient between Fused Silica and Metallic Materials, IEEE Photonics Journal, 4(1), 155-162, 2012.2

5. Li Xuefeng*, Liang Jinxing, Zimin Yury, Zhang Yupeng, Lin Shuo and Ueda Toshitsugu, U-Band Wavelength References Based on Photonic Bandgap Fiber Technology, Journal of Lightwave Technology, 29(19), 2934-2939, 2011.10

6. Li Xuefeng*, Liang Jinxing and Ueda Toshitsugu, Doubled Optical Path Length for Photonic Bandgap Fiber Gas Cell Using Micromirror, Japanese Journal of Applied Physics, 50(6):06GM01, 2011.6

7. Li Xuefeng*, Joanna Pawlat, Liang Jinxing and Ueda Toshitsugu, Measurement of Low Gas Concentrations Using Photonic Bandgap Fiber Cell, IEEE sensors Journal, 10(6):1156-1161, 2010.6

8. Li Xuefeng*, Joanna Pawlat, Liang Jinxing, Xu guan and Ueda Toshitsugu, Fabrication of Photonic Bandgap Fiber Gas Cell Using Focused Ion Beam Cutting, Japanese Journal of Applied Physics, 48(6):06FK05, 2009.6