学历:
吉林大学理学学士,信息与计算科学专业;
哈尔滨工业大学工学硕士,控制科学与工程专业;
哈尔滨工业大学工学博士,控制科学与工程专业;
Duke大学联合培养博士,电子与计算机工程。
研究方向:
计算电磁学, 电磁超材料,信号处理,勘察地球物理,工程应用中的算法优化和开发
主讲课程:
数学物理方法
高等工程数学
在研项目:
三维稀疏目标探测的电磁逆散射问题高效求解方法研究,国家自然科学基金,2013-2016 (主持)
地下稀疏目标探测中三维电磁逆散射问题的快速高精度求解方法,中央高校基本科研业务费,2015年-2017年(主持)
非常规油气介质中多物理场联合正反演的理论与方法研究,国家自然科学基金重大项目子项,2014年~2018年(参与)
随钻电磁波测井响应计算的谱元数值模式匹配法研究及应用,国家自然科学基金,2016-2018(参与)
超宽带混合极化探底雷达系统及目标特性反演成像方法研究,国家自然科学基金,2016-2018(参与)
基于宽带sferic全播反演法的D层局部扰动研究,国家自然科学基金,2016-2018(参与)
代表作:
[1]Zhu CH*, Liu LJ, Song ZY, Liu QH, 2016. Optimized invisibility cloaks from the Logarithm conformal mapping. Scientific Reports, 6. (SCI/EI)
[2]Zhu CH, Liu QH, Liu LJ*, Liu YH,2015. An Accurate Conformal Fourier Transform Method for 3D Discontinuous Functions. IEEE Transactions on Antennas and Propagation, 63(2):804~809.(IEEE:SCI/EI)
[3]Zhu CH*, Yang L, Liu N, Liu QH, 2016. A new property of the effective permittivity in polymeric medium with random distribution of spherical nanoparticles. EPL (Europhysics Letters), 116(1), 17002. (SCI/EI)
[4]Zhu CH, Liu QH *, Liu YH, Shen Y, Liu L, 2011. An accurate conformal Fourier transform method for 2D discontinuous functions. Progress In Electromagnetics Research, 120, 165-179.(SCI/EI)
[5]Zhu CH, Liu QH *, Shen Y, and Liu L, 2011. An analytical convolution method combined with the conformal Fourier transform for solving 1D integral equations. IEEE Antennas and Wireless propagation letters, 10, 1267-1269.(IEEE:SCI/EI)
[6]Zhu CH, Liu QH *, Shen Y and Liu LJ, 2010. A high accuracy conformal method for evaluating the discontinuous Fourier transform. Progress In Electromagnetics Research, 109, 425-440. (SCI/EI)
[7]Zhu CH*, Shen Y, 2010. New Fast Algorithm for Hypercomplex Decomposition and Hypercomplex cross-correlation. Journal of System Engineering and Electronics, 21(3), 514-519. (SCI/EI)
[8]Zhu CH*, Liu LJ, Song ZY, Liu YH, Liu QH, 2016. An efficient exact numerical solution for scattering by a circular cylinder. IEEJ Transactions on Electrical and Electronic Engineering, 11:S3~S10 (2016).(SCI/EI)
[9]Zhu CH*, Liu LJ, Liu YH, Yu Z., 2016. An Effective Semi-analytic Algorithm for Solving Helmholtz Equation in 1-D. 1st International Conference on Data Mining and Big Data (DMBD),INDONESIA,2016.6.25-2016.6.30.(EI)
[10]Liu, Y, You P, Zhu CH*, Tan X, Liu QH, 2016. Synthesis of Sparse or Thinned Linear and Planar Arrays Generating Reconfigurable Multiple Real Patterns by Iterative Linear Programming. Progress In Electromagnetics Research, 155, 27-38. (SCI/EI)
[11]Xu KD, Bai YC, Zhu CH*, Liu YH, Ren Y, Liu QH , 2016. Compact bandpass filters using multistub loaded spiral short‐ended resonator. Microwave and Optical Technology Letters, 58(11), 2738-2741.(SCI/EI)
[12]Zhou YG, Shi LL, Liu N, Zhu CH, Liu H, Liu QH*, 2016. Spectral Element Method and Domain Decomposition for Low-Frequency Subsurface EM Simulation. IEEE Geoscience and Remote Sensing Letters, 13(4), 550~554.(IEEE:SCI/EI)
[13]Liu N, Cai GX, Zhu CH, Huang YQ, Liu QH*, 2016. The Mixed Finite-Element Method With Mass Lumping for Computing Optical Waveguide Modes. IEEE Journal of Selected Topics in Quantum Electronics, 22(2).(IEEE:SCI/EI)
[14]Liu N, Cai GX, Zhu CH, Tang Y, Liu QH*, 2015. The Mixed Spectral-Element Method for Anisotropic, Lossy, and Open Waveguides, IEEE Transactions on Microwave Theory and Techniques, 63(10, 3094-3102. (IEEE:SCI/EI)
[15]Liu YH, Zhang L, Zhu CH, Liu QH *, 2015. Synthesis of Nonuniformly Spaced Linear ArraysWith Frequency-Invariant Patterns by the Generalized Matrix Pencil Methods, IEEE transactions on Antennas and Propagations, 63 (4), 1614-1625. (IEEE:SCI/EI)
[16]Feng NX, Yue YQ, Zhu CH, Liu QH*, Liangtian Wan, 2015. Second-order PML: Optimal choice of nth-order PML for truncating FDTD domains. Journal of Computational Physics, 285 (15), 71–83. (SCI/EI)
[17]Feng NX, Liu QH*, Zhu CH,2013. Simple and Efficient BZT-Higher-Order PML Formulations for the Metal Plate Buried in Three-Dimensional Dispersive Soil Space Problems. Applied Computational Electromagnetics Society Journal, 28(10), 909~916.(SCI/EI)
[18]Feng NX, YueYQ, Zhu CH, Liu QH*, Wan LT,2014. Efficient Z-Transform Implementation of the D-B CFS-PML for Truncating Multi-Term Dispersive FDTD Domains. Applied Computational Electromagnetics Society Journal, 29(3)190~196.(SCI/EI)
[19]Feng NX, Yue YQ, Zhu CH, Liu QH *, 2014. Effective Implementation of the CFS-PMLUsing DSP Techniques for Truncating Dispersive Medium FDTD Domains, Progress In ElectromagneticsResearch Symposium Proceedings, Guangzhou, China, Aug. 25-28. (EI)
[20]Wang F, Yu Z*, Liu LJ, Lei ZG, Zhu CH, 2014. Integrated design of fault diagnosis and adaptive fault-tolerant robust control for submarine’s vertical movement. Proceedings of 2014 IEEE Chinese Guidance, Navigation and Control Conference August 8-10, Yantai, China.(EI)
[21]Liu Z, Liu QH *, Zhu CH, 2011. A Fast Inverse Polynomial Reconstruction Method Based on Conformal Fourier Transformation. Progress In Electromagnetics Research, 122, 119-136. (SCI/EI)
[22]Shen Y* and Zhu CH, Liu LJ, Wang Q, 2010. Explicit solution for nonuniform discrete fourier transform.IEEE Conference on Instrumentation and Measurement Technology, 1505-1509. (IEEE:EI)
[23]Shen Y*, Zhu CH, Wang Q, Hao JS, 2009. A Fast Algorithm for medical Image Segmentation Based on Improved Incremental Variational Level Set. IEEE Conference on Instrumentation and Measurement Technology, 442-445.(IEEE:EI)
[24]Shen Y*, Dong XQ, Zhu CH, Hao JS, 2009. Geodesic geometric flow for medical image segmentation based on similarities of interfacial gradients. IEEE Conference on Instrumentation and Measurement Technology, 856-859. (IEEE:EI)
[25]Song ZY*, Zhu JF, Zhu CH, Yu Z, Liu QH,2015. Broadband cross polarization converter with unity efficiency for terahertz waves based on anisotropic dielectric meta-reflectarrays. Materials Letters, 159:269~272.(SCI/EI)
[26]Zhuang MW, Wei SL, Feng NX, Liu N, Zhu CH, Liu H, Zhou JY, Huang YQ, Luo M, Yuan MQ, Zhao B, Liu QH*,2015. New advances in FDTD methods for electromagnetic and elastic waves for probing complex media. 4th IEEE Asia-Pacific Conference on Antennas and Propagation, APCAP, Indonesia, 2015.6.30-2015.7.3. (IEEE:EI)