张中庆，项目负责人，研究员，IEEE高级会员，研究领域包括电磁测量、微波设计、计算电磁学、层析成像方法以及无线传感器网络。1997年6月毕业于石油大学资源系，获博士学位。1997.7-1998.12，在石油大学（华东）资源系从事科研和教学工作，任讲师；1999.1 -1999.5，在新墨西哥州立大学电子工程学院从事博士后研究；1999.6 -2002.10在杜克大学电子工程系，从事Research Assistant 研究工作。2002.10-2005.3，在美国Optimal公司任高级工程师，从事EDA软件研发。2005.3-2005.12，任美国Samstech公司的VP 。 曾任多种国际期刊的审稿人和国际会议的分会主席。在国际期刊和国际会议上发表学术论文50多篇。2005.12加入浙讲大学，任研究员。在浙江大学工作期间,取得了很多研究成果，2006-2007年度完成了 “水平井和斜井环境下双侧向测井数值模拟方法研究”。2006-2008年度完成了a.“DFIT仪器设计中方法、刻度与井眼校正研究”，b. “GFJG 重点预研课题(涉密课题)”, c.浙江大学预研基金“微波成像方法研究（交叉预研基金）”, d.教育部回国留学人员资助“新型电磁感应层析成像方法研究”。目前正在承担的课题包括： “海上低阻低孔渗油气藏电阻率反演技术研究”。

教育经历：

1. 中国石油大学，1988年7月大学本科毕业，获得学士学位
2. 中国石油大学，1991年3月硕士研究生毕业，获得硕士学位
3. 中国石油大学，1997年7月博士研究生毕业，获得博士学位
4. 杜克大学（美国），1999年-2002年，博士后

工作经历：

1. 1997年-1998年，中国石油大学，讲师 从事地球物理成像项目的教学和研发工作
2. 1999年-2002年，美国Duke University，研究员 从事电磁场、微波技术应用研究
3. 2002年-2005年，美国Optimal公司，资深高级工程师 作为高级研发工程师主要从事大型EDA产品的开发
4. 2005年-2013年，浙江大学，教授 石油探测装备、测井技术方向的教学和研究工作
5. 2006年-至今，杭州迅美科技有限公司，执行董事 担任公司执行董事，负责公司的整体运营及研发工作

发表论文：

1. 1. 用矢量棱边元素法模拟三维感应测井响应，复旦大学学报，2010  
   2. 高频感应测井仪器的响应特性及其应用研究，地球物理学进展，2010  
   3. 矢量有限元素法在随钻电阻率测井模拟中的应用，中国石油大学学报，2011  
   4. 随钻电磁波测井数据处理新方法，吉林大学学报，2014  
   5. 电流势法在直流电测井中的应用，测井技术，2015  
   6. 新型油基泥浆测井电成像方法研究，地球物理学进展，2015  
   7. 油基钻井液环境下电成像仪器对裂缝响应的数值模拟中国石油大学学报，2015  
   8. Z. Q. Zhang, and Q. H. Liu, “Application of BCGS-FFT method to 3D induction well logging problems.” IEEE Transactions on Geoscience and Remote Sensing, vol. 41, pp. 998—1004, 2003.  
   9. Z. Q. Zhang, and Q. H. Liu, “A volume adaptive integral method (VAIM) for 3D inhomogeneous objects,” IEEE Antennas Wireless Propagat. Lett., vol. 1, pp. 102—105, 2002.  
   10. Z. Q. Zhang, and Q. H. Liu, “3D nonlinear image reconstruction for microwave biomedical imaging,” IEEE Trans. Biomed. Eng., vol.51, no. 3, 2004  
   11. Z. Q. Zhang, and Q. H. Liu, “Microwave breast imaging: 2D reconstruction from measured data and 3D simulation,” IEEE Trans. Biomed. Eng., vol. 50, no 10, pp. 1180-1189, 2003  
   12. Q. H. Liu, Z. Q. Zhang, T. Wang, W. T. Joines, G. Yabbara, L. W. Nolte, J. A. Bryan, “Active Microwave Imaging of Breast Tumors: Forward and Inverse Scattering Methods,” IEEE Transactions on MTT, vol. 50, no 1, pp. 123—133, 2002.  
   13. Z. Q. Zhang, Q. H. Liu, and X. M. Xu, “RCS Computation for Large Inhomogeneous Objects Using a Fast Integral Equation Solver.” IEEE Transactions on Antennas and Propagation, vol. 51, pp. 613—618, 2003.  
   14. Z. Q. Zhang, and Q. H. Liu, “Three-Dimensional Weak-Form Conjugate- and Biconjugate-Gradient FFT Methods for Volume Integral Equations,” Microwave and Optical Technology Letters, pp. 350-356, 2001.  
   15. X. M. XU, Q. H. Liu, and Z. Q. Zhang, “The Stabilized BCG-FFT Method for EM scattering,” J. Appl. Comptat. Electromag. Vol.17, pp. 97—103, 2002.  
   16. Z. Q. Zhang, and Q. H. Liu, “Two Nonlinear Inverse Methods for Electromagnetic Induction Measurements,” IEEE Transactions on Geoscience and Remote Sensing, vol. 39, no. 6, pp. 1331—1339, 2001  
   17. Z. Q. Zhang, and Q. H. Liu, “Reconstruction of axisymmetric media with an FFHT enhanced extended Born approximation,” Inverse Problems, vol. 16, no5, pp. 1281—1295, 2000 (invited paper).  
   18. Z. Q. Zhang, and Q. H. Liu, “The hybrid extended Born approximation and CG-FFHT method for axisymmetric media,” IEEE Transactions on Geoscience and Remote Sensing, vol. 39, no. 4, pp710—717, 2001.  
   19. Q. H. Liu, Z. Q. Zhang, and X. M. Xu, “The hybrid extended Born approximation and CG-FFT method for electromagnetic induction problems,” IEEE Transactions on Geoscience and Remote Sensing, vol. 39, no. 2, pp 347—355, 2001.  
   20. Z. Q. Zhang, and Q. H. Liu, “Simulation of induction logging response using conjugate gradient method with nonuniform fast Fourier/Hankel transforms”, Radio Science, vol. 36, no 4, pp599—608, 2001.  
   21. Q. H. Liu, X. M. Xu, B. Tian, and Z. Q. Zhang, “Applications of nonuniform fast transform algorithms in numerical solutions of differential and integral equations,” IEEE Transactions on Geoscience and Remote Sensing, vol. 38, no. 4, pp. 1551—1560, 2000.  
   22. Q. H. Liu, and Z. Q. Zhang, “A nonuniform fast Hankel transform (NUFHT) algorithm,” Applied Optics, vol. 38, no. 32, pp. 6705—6708, 1999.  
   23. G. J. Zhang, and Z. Q. Zhang, “Application of SAM to the computation of Green's function in axisymmetric inhomogeneous media,” IEEE Transactions on Geoscience and Remote Sensing, vol. 36, no. 3, pp. 732—737, 1998.  
   24. Z. Q. Zhang, and Q. H. Liu, “Applications of Microwave Imaging to three-dimensional biological tissues,” Intl. IEEE/AP-S Symposium Digest, San Antonio, TX, June 2002.  
   25. X. M. Xu, Q. H. Liu, and Z. Q. Zhang, “The stabilized biconjugate gradient fast Fourier transform method for electromagnetic scattering,” Intl. IEEE/AP-S Symposium Digest, San Antonio, TX, June 2002.  
   26. L. Sha, L. Nolte, Z. Q. Zhang, and Q. H. Liu, “Performance analysis for Bayesian microwave imaging in decision aided breast tumor diagnosis,” ISBI 2002 Proc., Washington, D.C., July 2002.  
   27. Z. Q. Zhang, and Q. H. Liu, “Fast AIM computation of EM fields from 3D inhomogeneous objects” 2002 URSI Meeting Abstract, San Antonio, TX, June 2002.  
   28. Z. Q. Zhang, and Q. H. Liu, “3D EM induction imaging for buried object detection and identification” 2002 URSI Meeting Abstract, San Antonio, TX, June 2002.  
   29. Z. Q. Zhang, and Q. H. Liu, “3-D fast forward and inverse methods for subsurface electromagnetic induction sensing,” Progress in Electromagnetics Research Symposium, Boston, MA, July 2002.  
   30. Z. Q. Zhang, and Q. H. Liu, “FFT-accelerated fast forward and inverse scattering methods for microwave imaging of breast cancer,” Progress in Electromagnetics Research Symposium, Boston, MA, July 2002.  
   31. Z. Q. Zhang, and Q. H. Liu, “A new method for target detection and discrimination: 3-D inverse scattering,” UXO/Countermine Forum, Orlando, FL, Sept. 2002.  
   32. Z. Q. Zhang, and Q. H. Liu, “Microwave imaging for breast tumor: 2D forward and inverse methods,” Intl. IEEE/AP-S Symposium Digest, Boston, MA, July 2001.  
   33. Z. Q. Zhang, and Q. H. Liu, “Simulation of 3D EM fields by a weak-Form biconjugate gradient FFT method,” Intl. IEEE/AP-S Symposium Digest, Boston, MA, July 2001.  
   34. Z. Q. Zhang, and Q. H. Liu, “Two nonlinear inverse methods for electromagnetic induction measurements,” Intl. IEEE/AP-S Symposium Digest, Boston, MA, July 2001.  
   35. Q. H. Liu, and Z. Q. Zhang, “RCS calculation for large inhomogeneous penetrable objects,” Intl. IEEE/AP-S Symposium Digest, Boston, MA, July 2001.  
   36. Y. Q. Zeng, Z. Q. Zhang, and Q. H. Liu, “Active ultrasound imaging of breast tumors: Forward and inverse scattering methods,” 141th Acoustical Society of America Meeting, Chicago, IL, June 2001.  
   37. Q. H. Liu, X. Xu, Z. Q. Zhang, G. Zhao, “Strategy for modeling objects obstructed by foliage above a penetrable ground: spectral and higher-order methods,” 2001 URSI Meeting Abstract, Boston, MA, June 2001.  
   38. Q. H. Liu, and Z. Q. Zhang, “3-D microwave imaging for biomedical applications: numerical simulations,” 2001 URSI Meeting Abstract, Boston, MA, June 2001.  
   39. Z. Q. Zhang, and Q. H. Liu, “Reconstruction of 3D lossy media by using microwave measurements,” 2001 URSI Meeting Abstract, Boston, MA, June 2001.  
   40. Q. H. Liu, X. M. Xu, and Z. Q. Zhang, “Applications of nonuniform fast transform algorithms in numerical solutions of integral equations,” in Proc. 16th Annual Review of Progress in Applied Computational Electromagnetics, Monterey, CA, March 2000.  
   41. Q. H. Liu, X. M. Xu, and Z. Q. Zhang, “Applications of nonuniform fast Fourier transform (NUFFT) algorithms in subsurface sensing,” AP2000 Millennium Conference on Antennas and Propagation, Davos, Switzerland, April 2000.  
   42. Q. H. Liu and Z. Q. Zhang, and X. M. Xu, “A spectral hybrid EBA method for integral equations,” Intl. IEEE/AP-S Symposium Digest, Salt Lake City, UT, July 2000.  
   43. Z. Q. Zhang, and Q. H. Liu, “The hybrid extended Born approximation and CG-FFHT method for axisymmetric media,” Intl. IEEE/AP-S Symposium Digest, Salt Lake City, UT, July 2000.  
   44. Z. Q. Zhang, and Q. H. Liu, “Simulation of borehole induction using the hybrid extended Born approximation and CG-FFHT method,” in Proc. SPIE, San Diego, CA, July 2000.  
   45. Q. H. Liu and Z. Q. Zhang, “A novel inverse algorithm for borehole induction measurements Using a spectral hybrid EBA forward method,” in Proc. SPIE, San Diego, CA, July 2000.  
   46. Z. Q. Zhang and Q. H. Liu, “Hybridization of the extended Born approximation and CG-FFHT method,” Progress in Electromagnetics Research Symposium, Boston, MA, July 2000.  
   47. Q. H. Liu and Z. Q. Zhang, “A novel nonlinear inversion of borehole induction measurements,” Progress in Electromagnetics Research Symposium, Boston, MA, July 2000.  
   48. Z. Q. Zhang, and Q. H. Liu, “Nonlinear inversion of borehole induction measurements using a new fast forward algorithm,” 2000 URSI Meeting Abstract, Salt Lake City, UT, July 2000.  
   49. Q. H. Liu, and Z. Q. Zhang, “The nonuniform fast Hankel transform and its applications for integral equations,” 1999 URSI Meeting Abstract, Orlando, FL, July 1999.  
   50. Q. H. Liu, B. Tian, X. Xu, Z. Q. Zhang, “Recent progress on nonuniform fast Fourier transform algorithms and their applications,” J. Acous. Soc. Am., vol. 106, no. 4, Pt. 2, p. 2135, Nov. 1999 (138th Acoustical Society of America Meeting).