李娟
姓名 | 李娟 |
性别 | 女 |
学校 | 西安电子科技大学 |
部门 | 物理学院 |
学位 | 学历:博士研究生毕业 |
学历 | 毕业院校:西安电子科技大学 |
职称 | 教授 |
联系方式 | 【发送到邮箱】 |
邮箱 | 【发送到邮箱】 |
人气 | |
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个人简介:Personal Profile 李娟,西安电子科技大学博士,教授,博士生、硕士生导师。科研方面:近年来在国家973子课题、国家装备预研项目(共用技术基金、领域基金)、国家自然科学基金(面上、青年)等多个项目支持下,在复杂地物环境的电磁散射、实际地物环境与复杂目标的复合电磁散射及基于电磁建模的超分辨SAR成像等三个方面做了较为深入的研究。已在IEEE Trans. AP、 IEEE Trans. GRS、IEEE Geosci. Remote Sens. Lett.、Optics Express、Applied Optics 、J. Opt. Soc. Am. A、Waves Random Complex、Prog. Electrom. Res.、J. Electrom. Waves and Appl.、Chinese Physics Lett.以及Chinese Physics B等国际、国内重要期刊和会议上发表论文30余篇。主持包括国家自然科学面上基金、国家自然科学青年基金、装备预研共用技术基金、中国博士后面上基金、装备预研基金一般项目、装备预研重点实验室基金、航空科学基金、陕西省自然科学面上基金、校基本科研业务费等在内的项目10余项;获得陕西省优秀博士学位论文,及获教育部科技进步二等奖1项;授权国家发明专利2项(其中国防专利1项)。现为复杂地海环境电波传播与散射“科技部重点领域创新团队”、复杂地物环境电波传播与散射“陕西省重点科技创新团队”的核心成员。教学方面:承担《场论与复变函数》和《大学物理》两门本科生教学工作。一、已发表期刊论文[1] Meng Wei, Li Juan*(通讯作者), Xi Yong-Ji, Guo Li-Xin, Li Zi-hao, Wen Shun-kang. “An improved shooting and bouncing ray method based on blend-tree for EM scattering of multiple moving targets and echo analysis”, IEEE Trans. Antennas Propag., Vol.72, No.3, pp.2723–2737, 2024. (SCI 待检, EI检索: 20240415431018)[2] Meng Wei, Li Juan*(通讯作者), Xi Yong-Ji, Guo Li-Xin, Wen Shun-kang. “Electromagnetic scattering for multiple moving targets above/on a rough surface using multi-dynamic-octrees-based SBR algorithm”, IEEE Trans. Geosci. Remote Sens., Vol. 61, Art no. 2005512, 2023. (SCI检索: 001122705000018, EI检索: 20234715086857)[3] Li Juan*, Meng Wei, Guo Li-Xin, and Xi Yong-Ji. “Fast solution of scattering from moving target by dynamic-octree-based SBR algorithm”, IEEE Antennas Wireless Propag. Lett., Vol.22, No.2, pp.362-366, 2023. ( SCI检索:001022942400030:, EI检索: 20224212974562)[4] Li Juan*, Li Ke, Guo Li-Xin, and Ren Ze-Lin. “A bi-iterative model for electromagnetic scattering from a PEC object partially buried in rough sea surface”, IEEE Geosci. Remote Sens. Lett., Vol.15, No.4, pp.493–497, 2018. (SCI检索:000428632800003, EI检索: 20180704790419)[5] Li Juan*, Guo Li-Xin, Jiao Yong-Chang, and Wang Rui. “Composite scattering of a plasma-coated target above dispersive sea surface by the ADE-FDTD method”, IEEE Geosci. Remote Sens. Lett., Vol.10, No.1, pp.4–8, 2013. (SCI检索:000310899700001, EI检索: 20123815453843) [6] Li Juan*, Meng Wei, Chai Shui-Rong, Xi Yong-Ji, Wen, Shun-kang, and Li Ke. “An accelerated hybrid method for electromagnetic scattering of a composite target–ground model and its spotlight SAR image”, Remote Sensing, Vol. 14, No.24,Art no. 6332, 2022. ( SCI检索: 000902629000001, EI检索: 20225213315789)[7] Li Juan*, Guo Li-Xin, Jiao Yong-Chang, and Li Ke. “Investigation on wide-band scattering of a 2-D target above 1-D randomly rough surface by FDTD method”, Optics Express, Vol.19, No.2, pp.1091–1100, 2011. (SCI检索: 000286314600069, EI检索: 20110413617951)[8] Li Juan*, Zhao Lei, Guo Li-Xin, Li Ke, and Chai Shui-Rong. “Hybrid PO-SBR-PTD method for composite scattering of a vehicle target on the ground”, Applied Optics, Vol.60, No.1, pp.179–185, 2021. (SCI检索: 000602799100023, EI检索: 0205309700721)[9] Li Juan*, Li Chong, Guo Li-Xin, Wei Yi-Wen, Li Ke, and Chai Shui-Rong. “Strip SAR image simulation of a composite vehicle–ground model”, J. Opt. Soc. Am. A, Vol.39, No.7, pp.1202–1209, 2022. ( SCI检索: 000825152400002, EI检索: 20222612303574)[10] Meng Wei, Li Juan*(通讯作者), Guo Li-Xin and Yang Qi-Jun. “An accelerated SBR method for RCS prediction of electrically large target”, IEEE Antennas Wireless Propag. Lett., Vol.21, No.10, pp.1930-1934, 2022. ( SCI检索: 000864188600003, EI检索: 220222812350143) [11] Xi Yong-Ji, Li Juan*(通讯作者), Guo Li-Xin, Meng Wei, Wen, Shun-kang. “Fast solution of scattering and micro-doppler features from moving target using a tailored shooting and bouncing ray method”, Remote Sensing, Vol. 15, No.24,5724, 2023. ( SCI检索:001137846000001, EI待检)[12] Li Juan*, Guo Li-Xin, and Chai Shui-Rong. “Composite electromagnetic scattering from an object situated above rough surface”, Applied Optics, Vol.53, No.35, pp.8189–8196, 2014. (SCI检索: 000346006300006, EI检索: 20145100350924) [13] Li Juan*, Guo Li-Xin, Zeng Hao, Han Xu-Biao. “Message–passing–interface–based parallel FDTD investigation on the EM scattering from a 1–D rough sea surface using uniaxial perfectly matched layer absorbing boundary”, J. Opt. Soc. Am. A, Vol.26, No.6, pp.1494–1502, 2009.( SCI检索: 000267499600020, EI检索:20093012220335)[14] Li Juan*, Guo Li-Xin, Jiao Yong-Chang, and Li Ke.“Wide-band scattering of 1-D dispersive soil surface by the ADE-FDTD algorithm”, J. Electromagn. Waves and Appl.,Vol.27, No.4, pp.421–429, 2013. (SCI检索: 000316397300003, EI检索: 20131516186250)[15] Li Juan*, Guo Li-Xin, and Zeng Hao. “FDTD method investigation on the polarimetric scattering from 2-D rough surface”, Prog. Electromagn. Res., PIER 101, pp.173–188, 2010. (SCI检索: 000275368300012, EI检索: 20101112769915 )[16] Li Juan*, Guo Li-Xin, and Zeng Hao. “FDTD investigation on bistatic scattering from a target above two–layered rough surfaces using UPML absorbing condition”, Prog. Electromagn. Res., PIER 88, pp.197–211, 2008. ( SCI检索: 000265387800012, EI检索: 20130816037942) [17] Li Juan*, Li Ke, Guo Li-Xin, Liu Zhong-Yu. “A hybrid IEM–PO method for composite scattering from a PEC object above a dielectric sea surface with large windspeed: HH polarization”, Waves Random Complex, Vol.28, No.4, pp.630–642, 2018. (SCI: 000452435800004; EI检索: 20174004228119)[18] Li Juan*, Guo Li-Xin, and Chai Shui-Rong. “Electromagnetic scattering from a PEC object above a dielectric rough sea surface by a hybrid PO–PO method”, Waves Random Complex, Vol.25, No.1, pp.60–74, 2015. (SCI检索: 000354874800007, EI检索: 20144400139932) [19] Li Juan*, Guo Li-Xin, Jiao Yong-Chang, and Jia Chun-Gang. “Frequency response of 1-D dispersive sea surface by the ADE-FDTD algorithm”, Waves Random Complex, Vol.22, No.2, pp.305–316, 2012. (SCI检索: 000306508300011, EI检索: 20121714966771)[20] Li Juan*, Guo Li-Xin, and Zeng Hao. “FDTD investigation on bistatic scattering from two–dimensional rough surface with UPML absorbing condition”, Waves Random Complex, Vol.19, No.3, pp.418–429, 2009. (SCI检索: 000274750800004, EI检索:20094912528627)[21] Li Juan*, Guo Li-Xin, and Zeng Hao. “FDTD investigation on the electromagnetic scattering from a target above a randomly rough sea surface”, Waves Random Complex, Vol.18, No.4, pp.641–650, 2008. (SCI检索: 000259997500007, EI检索: 20084411667312)[22] Li Juan*, Guo Li-Xin, and Zeng Hao. “FDTD investigation on electromagnetic scattering from two-dimensional layered rough surfaces”, Appl. Comput. Electromagn., Vol.25, No.5, pp.450–457, 2010. (SCI检索: 000281450000007, EI检索: 20104313321926)[23] Li Juan*, Guo Li-Xin, and Zeng Hao. “FDTD investigation on electromagnetic scattering from two–layered rough surfaces under UPML absorbing condition”, Chinese Physics Lett., Vol.26, No.3, pp.034101–1–034101–4, 2009. (SCI检索: 000263601300025)[24] Li Juan*, Guo Li-Xin, and Zeng Hao. “Investigation of composite electromagnetic scattering from ship–like target on the randomly rough sea surface using FDTD method”, Chinese Physics B, Vol.18, No.7, pp.2757–2763, 2009. (SCI检索: 000267821200022, EI检索: 20093512273363)[25] Chai Shui-Rong, Zhu Fang-Yin, Li Juan*(通讯作者), He Zhen-Xiang, and Zou Yu-Feng, “Electromagnetic scattering and doppler spectrum simulation of land–sea junction composite rough surface”, Remote Sensing, Vol. 15, No.3,836, 2023.( SCI检索: 000930315200001, EI检索: 20230713592736) [26] Wei Yi-Wen, Tian Da-Yong, Li Juan*(通讯作者), Wang Jing-Jing, Chai Shui-Rong, and Guo Li-Xin. “Efficient GPU implementation of the time-domain shooting and bouncing rays method on electrically large complex target, Waves Random Complex,, DOI 10.1080/17455030.2022.2064559, 2022. ( SCI检索: 000788050200001, EI检索: 20221912099581)[27] Guo Li-Xin, Li Juan*, and Zeng Hao. “Bistatic scattering from a three-dimensional object above a two-dimensional randomly rough surface modeled with the parallel FDTD approach”, J. Opt. Soc. Am. A, Vol.26, No.11, pp.2383–2392, 2009.( SCI检索: 000272143600026, EI检索: 20094812502108)[28] Li Juan*, Li Ke, and Guo Li-Xin. “Electromagnetic scattering of 1-D sea surface with large windspeed by using iterative physical optics algorithm”, Prog. Electromagn. Res. M, No.59, pp.55–64, 2017. (EI检索: 20173404068958)[29] Wei Yi-wen, Guo Li-Xin, Li Juan*. “Numerical simulation and analysis of the spiky sea clutter from the sea surface with breaking waves”, IEEE Trans. Antennas Propag., Vol.63, No.11, pp. 4983–4994, 2015. (SCI检索: 000367730500039 EI检索: 20154601547233)[30] Li Ke, Guo Li-Xin, Li Juan*, Chai Shui-Rong. “A fast and efficient method for the composite scattering of a coated object above 3D random rough surfaces ”, IEEE Access, Vol.6, No.1, pp. 56192-56199, 2018. (SCI检索: 000448304200001; EI检索: 20184105917117)[31] Li Ke, Guo Li-xin, Li Juan*. “Scattering and doppler spectral analysis for a fast-moving target above time-varying lossy dielectric sea surface”, Int. J. Antennas and Propag., Article ID 8216309, 2016. (SCI检索: 000386828700001; EI检索: 20164603001214) 二、主持的科研项目[1] 装备预研共用技术项目, 高动态XXX电磁散射数值建模技术,2021.01-2025.12,在研。[2] 国家自然科学基金面上项目,基于时域电磁建模的海上复杂目标高分辨SAR成像研究, 2020.01-2023.12,在研。[3] 国家自然科学基金青年项目,基于时域算法的海上低空目标宽带散射及HRRP特性分析,2016.01-2018.12,已结题。[4] 装备预研一般基金,xxxx电磁散射理论建模与回波特征分析,2015.01-2017.12,已结题。[5] 装备预研重点实验室基金,xxxx特征分析及目标识别方法研究,2019.01-2020.12,在研。[6] 第50批中国博士后基金,实际海洋环境中目标的宽带散射及回波特性研究,2012.01-2015.12,已结题。[7] 教育部新教师类博士点基金,实际粗糙海面及其与目标的时域复合散射特征研究,2013.01-2015.12,已结题。[8] 航空科学基金,复杂动态海面上方目标的电磁散射建模及回波特征分析,2018.01-2020.12,在研。[9] 陕西省自然科学基金,粗糙海面与目标的复合电磁散射研究,2013.01-2015.12,已结题。[10] 高校基本科研业务费,实际海洋表面与目标复合电磁散射研究,2010.01-2012.12,已结题。[11] 高校基本科研业务费,地海背景与目标复合模型的宽带散射研究,2013.01-2015.12,已结题。三、参与的科研项目[1] 装备预研共用技术重点基金,xxxx远、近场电磁散射特性建模技术, 2016.01-2020.12,已结题。[2] 装备预研领域基金,高海况条件下海面声散射特性建模与分析,2018.01-2020.12,已结题。[3] 横向合作项目,复杂XXX某型装备雷达目标特性,2020.06-2021.01,已结题。四、获奖[1] 陕西省优秀博士论文,粗糙面及其与目标复合电磁散射的FDTD 方法研究,2012。[2] 教育部科学技术进步二等奖,目标与实际粗糙地海面电磁散射建模技术及应用,2014。[3] 科技部重点领域创新团队,复杂地海环境电波传播与散射创新团队,2018[4] 陕西省重点科技创新团队,复杂地物环境电波传播与散射创新团队,2014.[5] 校级教学成果特等奖,服务国家需求,双创教育驱动,电子信息科学与技术专业人才培养体系创新与实践,2022.[6] 校优秀博士论文,粗糙面及其与目标复合电磁散射的FDTD 方法研究,2010。 |