• 9/1/1990至7/1/1994   西北工业大学   本科学生

• 9/1/1994至3/1/1997   西北工业大学   硕士研究生

• 3/1/1997至7/1/2001   西北工业大学   博士研究生

国际期刊:

[1] P. Liu(刘鹏) and P. Chen,“Modeling and simulation of vessel in SAR image using oceanographic measured data and shipbuilding drawings,” Int. J. Numer. Model., vol. 93, no. 7, pp. 1-14, 2019.

[2] Y. H. Zhao and P. Liu(刘鹏), “Adaptive ship detection for single-look complex SAR images based on SVWIE-noncircularity decomposition,” Sensors, vol. 18, no. 10, pp. 3293, 15pp.  Oct. 2018.

[3]Y. X. Sun, P. Liu(刘鹏) and Y. Q. Jin, “Ship wake components: Isolation, reconstruction, and characteristics analysis in spectral, spatial, and TerraSAR-X image domains,” IEEE Trans. Geosci. Remote Sens., vol. 56, no. 7, pp. 4209-4224, July 2018.

[4] P. Liu (刘鹏) and Y. Q. Jin, “A study of ship rotation effects on SAR image,” IEEE Trans. Geosci. Remote Sens., vol. 55, no. 6, pp. 3132-3144, June 2017.
DOI: 10.1109/TGRS.2017.2662038. (本期TGRS 封面文章)

[5] P. Liu(刘鹏) and Y. Q. Jin, “Simulation of synthetic aperture radar imaging of dynamic wakes of submerged body, ” IET Radar, Sonar & Navigation, vol. 11, no. 3, pp. 481-489, Mar. 2017.

[6]  P. Liu(刘鹏) and C. F. Wang, “Computational complexity analysis for multifrontal method with limited-depth of assembly tree, ” IEEE Trans. Antennas Propagat., vol. 62, no. 4, pp. 2165-2174, April 2014.

[7] P. Liu(刘鹏) and C. F. Wang, “A bubble inspired algorithm for finite element mesh partitioning,” Int. J. Numer. Meth. Eng., vol. 93, no. 7, pp.770-794, 2013.

[8] P. Liu(刘鹏), Y. Q. Jin, “A FEM Approach with FFT Accelerated Iterative Robin Boundary Condition for Electromagnetic Scattering of a Target with Strong or Weak Coupled Underlying Randomly Rough Surface,” IEEE Trans. Antennas Propagat., vol. 53, no. 12, pp. 4137-4144, Dec. 2005.

[9] P. Liu(刘鹏), Y. Q. Jin, “Numerical Simulation of the Doppler Spectrum of A Flying Target above Dynamic Oceanic Surface by Using the FEM-DDM Method,” IEEE Trans. Antennas Propagat., vol. 53, no.2, pp. 825-832, Feb. 2005.

[10] P. Liu(刘鹏), Y. Q. Jin, “Numerical simulation of bistatic scattering from a target at low altitude above rough sea surface under an EM wave incidence at low grazing angle by using the finite element method,” IEEE Trans. Antennas Propagat., vol. 52, no.5, pp. 1205-1210, May 2004.

[11] P. Liu(刘鹏), Y.Q. Jin, “The Domain Decomposition and Finite Element Method for Electromagnetic Bistatic Scattering from A Comprehensive Model of the Ship on and the Target above Large-Scale Rough Sea Surface,” IEEE Trans. Geosci. Remote Sensing, vol. 42, no.5, pp. 950-956, May 2004.

[12] P. Liu(刘鹏), J. D. Xu, and W, Wan, “A finite-element realization of 3D conformal PML,” Microwave Opt. Technol. Lett., vol. 30, pp.170-173, 2001.

专著：

金亚秋， 刘鹏， 叶红霞，《随机粗糙面与目标复合散射数值模拟理论和方法》, 北京：科学出版社，2008年5月.

国内期刊:

[1] 孙玉鑫, 丁娟娟, 刘鹏，“基于分块相位梯度算法的多舰船尾迹自动识别”，太赫兹科学与电子信息学报，2017，15(4): pp. 558-564.

[2] 任维君，丁娟娟，刘鹏，“舰船湍流尾迹的数值模拟及其单站RCS计算”，电波科学学报, 2016, 31(3)：pp. 568-572.

[3] 宋志强，刘鹏，“二维电大尺寸目标IRBC的计算”, 上海交通大学学报，2011(12)：pp.1863-1867.

[4] 刘鹏，“三维粗糙面电磁双站散射的直接型区域分解计算”, 计算物理，2010(1): 73-81.

[5] 刘鹏，“三维粗糙面散射中IRBC的FFT加速计算”, 北京邮电大学学报, 2009(1) : 77-80.

[6] 金亚秋，刘鹏， “地海杂波环境中目标电磁散射复合建模与数值仿真”，目标与环境特性，2007， 3(43): 17-31.

[7] 刘鹏，金亚秋，“低掠角入射粗糙面上低空目标双站散射的有限元数值模拟”，中国科学（E）, 2004, 34(7): 793-803.

[8] 刘鹏，金亚秋，“大范围粗糙海面上舰船与低空目标电磁散射的区域分解计算”, 自然科学进展, 2004，14(2): 201-208.

[9] 刘鹏，金亚秋，“动态起伏海面上低飞目标电磁散射Doppler频谱的有限元-域分解法数值模拟”, 中国科学（G），2004, 34(3): 265-278.

[10] 刘鹏，许家栋，“曲边六面体矢量单元的改进与应用”，计算物理， 2002,19(4) : 329-332. (目前被引用频次：1)

[11] 刘鹏，王小宁,许家栋，段立宇，“S135钻杆感应加热的数值模拟”，西北大学学报（自然科学版），2001,31(5): 49-52.

[12] 刘鹏，王小宁,许家栋，“有限元结合完全匹配层的应用研究”，目标与环境特性，2001,18(2): 1-6.

[13] 王小宁,刘鹏，许家栋，“雷达成像中插值算法的比较”，现代雷达，2001(4): 59-61.

[14] 刘鹏，许家栋，马国忠，“二维散射问题的有限元/边界元方程组求解”，西北工业大学学报，1999，17(4) : 594-599.  

国际会议:

[1] P. Liu(刘鹏) and P. Chen,“Comparison of real and simulated SAR imagery of Ship with Oceanographic Measured Data,” 2019 IEEE International Geoscience and Remote Sensing Symposium (IGARSS 2019), pp. 2323-2325, 2019.

[2] Y. H. Zhao, X. Han and P. Liu(刘鹏), “A RPCA and RANSAC based algorithm for ship wake detection in SAR images,”12th International Symposium on Antennas, Propagation and Electromagnetic Theory (ISAPE), Hangzhou, China, Dec, 2018.

[3] P. Liu(刘鹏) and Y. Q. Jin, “Reconstruction the orbital velocity field of ship wake by the least square method(invited),”2018 International Applied Computational Electromagnetics Society (ACES) Symposium, Beijing, China, July, 2018.

[4] Chao-Fu Wang*, Peng Liu(刘鹏), “Benchmarks for Electromagnetic Scattering from Large Cavities,” 2013 IEEE APS/URSI, July, 2013, Orlando.

[5]  Peng Liu(刘鹏), Chao-Fu Wang, “On the Computational Complexity of Domain Wise Multilevel Multifrontal Method”, 11th International Workshop on Finite Elements for Microwave Engineering ( FEM2012), Estes Park, Colorado, June, 2012, P96.

[6] P. Liu(刘鹏) and C. F. Wang, “Development of parallel higher order FE-BI code for efficient modeling of interior scattering from large cavity structures”, 2009 Asia-Pacific Microwave Conference Proceedings, pp. 735-738, Singapore.

[7] P. Liu(刘鹏) and Y. Q. Jin, “Domain Decomposition Method with Iterative Robin Boundary Condition for Bistatic Scattering from Large 3D Rough Surface”, Progress In Electromagnetics Research Symposium, Hangzhou, China, March 24-28, 2008.

[8] P. Liu, Y. Q. Jin, “Electromagnetic scattering of a target with strong or weak coupled underlying oceanic surface: a FEM approach with FFT accelerated iterative Robin boundary condition,” 2005 Asia-Pacific Microwave Conference Proceedings, pp. 2744-2747, SuZhou, China.

[9]  P. Liu, Y. Q. Jin, “A TLQSA Simulation of the Doppler Spectrum from a Flying Object above Dynamic Oceanic Surface,” Proceedings of the PIERS 2004 (The Progress in Electromagnetics Research Symposium), p.363, Nanjing, China.

[10] P. Liu, Y. Q. Jin, “Iterative Domain Decomposition Method for EM Scattering from an Object at the height of Hundreds of Wavelength above Rough Oceanic Surface,” Proceedings of the PIERS 2004 (The Progress in Electromagnetics Research Symposium), p.327, Nanjing, China.

[11] P. Liu(刘鹏) et al., “Novel Basis Functions for Quadratic Hexahedral Edge Element,” Wave Propagation, Scattering and Emission in Complex Media, Science Press and World Scientific, pp. 428-436, 2003.