◎研究方向 [1] 激光光谱检测技术:研究混合态多目标气体的测量技术,着重研究化学计量学算法,提高在混合态光谱干扰的情况下标定模型的准确性。负责分析装置的整体研制,实现设计的性能指标,建立光谱数据库。 [2] 智能光电信息处理与应用:研究不同 QCL 激光器的波长精确控制技术;研究气体吸收线型随背景组分、温度、压力的变化规律,研究光谱微缓形变的特征,研究机器学习算法的修正补偿技术;研究激光器调制噪声干扰抑制技术、微弱信号检测识别技术。 [3] 气体检测装置与光谱算法研究:采用功能强大的微处理器和带操作系统的多线程多任务处理软件,实现多种控制算法和模型集成。 ◎教育经历 2010-2015 吉林大学 集成光电子国家重点联合实验室 电路与系统专业(硕博连读) 博士 2006-2010 吉林大学 电子科学与工程学院 电子信息工程专业 学士 ◎工作经历 2015年至今 爱游戏app官方入口
(华东)控制科学与工程学院 副教授
◎学术兼职 Frontiers in Physics,Spectroscopy Letters,Applied Physics B: Lasers and Optics等审稿人
◎主讲课程 本科课程:《过程检测技术与仪表》、《光电检测技术》、《传感器原理》、《传感检测技术》 《专业生产实习》《传感器课程设计》 ◎指导研究生及博士后 指导22级研究生4 指导23级研究生5
指导24级研究生3
◎承担项目 [1] 国家自然科学基金 (No.62205378),项目名称:多种高分子量呼吸生物标记物的复合光谱表征与解析机理研究,在研,主持 [2] 北京市重点项目外协(No. HX20211125),基于量子级联激光器的 NH3遥测系统,在研,主持 [3] 中国科学院半导体研究所合作项目(No. HX20221205),基于调谐激光光谱技术的NH3检测仪关键模块研发,在研,主持 [4] 国家重点研发计划课题, (No. 2020YFB0408402), 基于QCL呼吸气体分析装置的核心技术研究, 结题, 主持 [5] 山东省技术创新引导计划,(No. 2022ADS04084)基于TDLAS技术的呼吸气体关键检测技术的研究, 结题, 主持 [6] 爱游戏app官方入口
(华东)自主创新科研计划项目(延续项目), (No.19CX02045A), 油田伴生气红外高精度光谱检测机理研究, 结题, 主持 [7] 山东省重点研发计划项目, (No. 2019GHY112084), 基于光子晶体光纤的海底CO2溶解气的关键检测技术与装置研究, 结题, 主持 [8] 山东省自然科学基金-联合专项, (No. ZR2017LF023), 油田伴生气传感致变特性及关键检测机理研究, 结题, 主持 [9] 青岛市科技局, 青岛市科技局民生科技计划惠民专项,(No. 17-3-3-89-nsh), 基于3.3微米带间级联激光器的甲烷气体泄漏遥测仪研发, 结题, 主持 [10] 爱游戏app官方入口
(华东)自主创新科研计划项目, (No. 15CX02022A), 基于光谱技术的双组分气体检测系统的研究, 结题, 主持 [11] 山东省科技厅, 山东省重点研发计划项目, (No. 2019GGX104103), 一种差分加标光谱技术的过程气体分析仪器研制, 结题, 参与
◎获奖情况 2018年指导校优秀毕业论文一篇 2019年指导校优秀毕业论文一篇 2021年指导校优秀毕业论文一篇 2020年,爱游戏app官方入口
(华东)“控制”奖教金 2022年,爱游戏app官方入口
(华东)“中控”奖教金 ◎学术兼职 中国光学学会激光光谱学专业委员会委员 ◎论文 [1] Guolin Li *; Hao Zhao; Yimeng Song; Jiarui Li; Yajing Liu; Enting Dong; Lupeng Jia; Siyu Zhang; Fuli Zhao ; Mid-infrared carbon isotope spectrum logging system combined with a thermostat of optical subsystem for high-precision detection of isotope ratio, Spectrochimica Acta Part A:Molecular and Biomolecular Spectroscopy, 2023, 302: 123051 (SCI二区) [2] Guolin Li *; Xuena Zhang; Zecheng Zhang; Yunhui Wu; Hao Zhao; Jiarui Li; Yajing Liu; YimengSong; Shenqiang Zhai ; Mid-infrared telemetry sensor based calibration gas cell for CO detectionusing a laser wavelength locking technique, Measurement, 2023, 208: 11244(SCI二区) [3] Guolin Li *; Yajing Liu; Yue Jiao; Zecheng Zhang; Yunhui Wu; Xuena Zhang; Hao Zhao; JiaruiLi; Yimeng Song; Qiang Li; Shenqiang Zhai ; Mid-infrared acetone sensor for exhaled gas using FWA-LSSVM and empirical mode decomposition algorithm, Measurement, 2023, 213: 112716(SCI二区) [4] Yimeng Song, Guolin Li *, Lupeng Jia, et al. Enhanced performance for simultaneous atmospheric N2O and CO measurements based on ICEEMDAN and GWO-LSSVM[J]. Infrared Physics & Technology, 2023, 135: 104957. (SCI三区) [5] Hao Zhao, Guolin Li *, Enting Dong, et al. Near-infrared H2S telemetry system under non-cooperative target with a novel mixed heterodyne optical structure scheme for high efficiency[J]. Infrared Physics & Technology, 2024, 137: 105130. (SCI 三区) [6] Guolin Li *, Hao Zhao, Jiarui Li, Yajing Liu, Yimeng Song, Xuena Zhang, Zecheng Zhang, Yunhui Wu, A near infrared H2S leakage detection system based on WDO-ELM using a digital lock-in amplifier combined with discrete wavelet transform filter,Infrared Physics & Technology, 2023, 128: 104481.(SCI三区) [7] Guolin Li *, Yimeng Song, Kun Ma, Xuena Zhang, Hao Zhao, Zecheng Zhang, Yajing Liu, Yunhui Wu, Jiarui Li, Shenqiang Zhai, Qiang Li, Kaiyuan Zheng, Chuantao Zheng, WM-OA-ICOS Based Mid-infrared Dual-range Real-time Trace Sensor for Formaldehyde Detection in Exhaled Breath, IEEE Sensors Journal, 2023,23(1):274-284. (SCI二区) [8] Guolin Li *, Xuena Zhang , Zecheng Zhang, Yunhui Wu, Kun Ma, Yue Jiao , Jiarui Li, Yajing Liu, Yimeng Song, Hao Zhao, Performance enhancement of a near-infrared NH3 sensor based on PSO-LSSVM for denitrification industrial process, Infrared Physics & Technology, 2022, 125: 104226.(SCI三区) [9] Guolin Li*, Xuena Zhang, Zecheng Zhang, Yunhui Wu, Kun Ma, Yue Jiao, Jiarui Li, Yajing Liu, Yimeng Song, Hao Zhao, Shenqiang Zhai, Qiang Li, A mid-infrared exhaled carbon dioxide isotope detection system based on 4.35 μm quantum cascade laser,Optics & Laser Technology, 2022, 152: 108117.(SCI二区) [10] Guolin Li∗, Yunhui Wu, Zecheng Zhang, Xuena Zhang, Kun Ma, Yue Jiao, Jiarui Li, Yajing Liu, Yimeng Song, Hao Zhao, Shenqiang Zhai, Qiang Li, WMS based dual-range real-time trace sensor for ethane detection in exhaled breath,Optics and Lasers in Engineering, 2022, 159: 107222.(SCI二区) [11] Guolin Li*, Zecheng Zhang, Xuena Zhang, Yunhui Wu, Kun Ma, Yue Jiao, Hao Zhao, Yimeng Song, Yajing Liu and Shenqiang Zhai, Performance of a Mid-Infrared Sensor for Simultaneous Trace Detection of Atmospheric CO and N2O Based on PSO-KELM, Frontiers in Chemistry, 2022, Volume 10, Article 930766. (SCI三区) [12] Guolin Li; Qingzhi Jiang; Chenquan Hua; Kun Ma; Yue Jiao; Wenhai Ji ; Temperature and Pressure Insensitive Spectroscopic Method for Measuring 13CH4 during Oil and Natural Gas Drilling Operations,Frontiers in Physics, 2021, 9(3): 633012. (SCI三区) [13] Guolin Li; Enting Dong; Wenhai Ji ; A Near-Infrared Trace CO2 Detection System Based on an 1,580 nm Tunable Diode Laser Using a Cascaded Integrator Comb (CIC) Filter-Assisted WavelengthModulation Technique and a Digital Lock-in Amplifier, Frontiers in Physics, 2019, 7(11): 199.(SCI三区) [14] Guolin Li; Kun Ma; Yue Jiao; Xuena Zhang; Zecheng Zhang; Yunhui Wu; Zhidan Yan ; A near-infrared trace hydrogen sulfide sensor based on CEEMDAN and PSO-LSSVM, Microwave and Optical Technology Letters, 2021 (SCI四区) [15] Guolin Li; Kun Ma; Yue Jiao; Qingzhi Jiang; Xuena Zhang; Zecheng Zhang; Yunhui Wu; Di Song ; Performance enhancement of DFBL based near-infrared CH4 telemetry system using a focus tunable lens,Microwave and Optical Technology Letters, 2021, 63(4): 1147-1151. (SCI四区) [16] Guo-Lin Li, Yue Sui, Ming Dong, Wei-Lin Ye, Chuan-Tao Zheng*, Yi-Ding Wang*, A carbon monoxide detection device based on mid infrared absorption spectroscopy at 4.6 µm, Applied Physics B: Lasers and Optics, 2015,119(2): 287-296.(SCI三区) [17] Guo-Lin Li, Zi-Hui Yan, Nan Song, Ming Dong, Wei-Lin Ye, Chuan-Tao Zheng*, Yi-Ding Wang*,Design and performances of a carbon monoxide sensor using mid infrared absorption spectroscopy technique at 4.6 µm , Spectroscopy Letters, 2015, 48 (6): 454-461.(SCI四区)
◎专利 [1] 李国林; 蒋庆志; 季文海 ; 一种基于TDLAS的碳同位素检测系统及其检测方法, 2022-04-29, 中国, ZL202010029744.1 [2] 李国林; 吴赟辉; 宋一萌; 张泽成; 张雪娜; 赵浩; 李嘉睿; 刘雅婧 ; 二甲醚抛射剂气雾罐泄漏检测系统及方法, 2024-3-12, 中国, ZL202111551139.1 [3] 李国林; 张泽成; 张雪娜; 吴赟辉; 刘雅婧; 李嘉睿; 赵浩; 宋一萌 ; 基于呼吸气体大类标志物复合光谱检测系统及方法, 2023-07-25, 中国, ZL202111551137.2 [4] 李国林,徐建龙,季文海. 一种潜水拖曳式深海甲烷浓度原位检测系统[P]. 山东:CN208091915U,2018-11-13. [5] 李国林,徐建龙,季文海. 一种波长范围以及波长连续可调谐的多气体检测系统[P]. 山东:CN208013060U,2018-10-26. [6] 李国林,吕晓翠,季文海. 一种基于多频调制和多频解调的多气体组份检测装置[P]. 山东:CN207689365U,2018-08-03. ◎受邀报告 (1) 李国林 ;激光光谱在生物医疗和工业应用研究,第二届全国光电测量测试技术及产业发展大会,大连 2024 -5-17至2024 -5-19 (会议报告) (2) 李国林 ; TDLAS技术在石油化工过程中的多组分气体检测的应用, 第九届中国在线分析仪器应用与发展国际论坛暨展览会, 北京, 2017-11-22至2017-11-23 (会议报告) (3) 李国林 ; 激光光谱痕量气体检测的应用研究, 第十六届中国在线分析仪器应用及发展国际论坛, 青岛国际会展中心7号馆, 2023-11-28至2023-12-1 (会议报告) (4) 李国林 ; A method based on GA-ELM for concentration prediction in the H2S detection system, the 20th International Conference on Near Infrared Spectroscopy, 中国北京, 2021-10-17至2021-10-21 (会议报告) |