资料下载

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[2]Yuan, S. Y. and Wang, S. X. Spectral sparse Bayesian learning reflectivity inversion. Geophysical Prospecting, 2013, 61(4), 735 - 746. (SCI检索)

[3]Yuan, S. Y. and Wang, S. X. Edge-preserving noise reduction based on Bayesian inversion with directional difference constraints. Journal of Geophysics and Engineering, 2013, 10(2):doi:10.1088/1742-2132/10/2/025001. (SCI检索)

[4]Yuan, S. Y. and Wang, S. X. Full waveform inversion using non-smooth data fidelity and non-smooth regularization. Canadian Journal of Exploration Geophysics, 2013, 38(1): 4 - 11.

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[9]Yuan, S. Y., Wang, S. X. and Li, G. F. Random noise reduction using Bayesian inversion. Journal of Geophysics and Engineering, 2012, 9(1): 60-68. (SCI检索,被引用5)

[10]Deng, J. X., Qu, S. L., and Wang, S. X. et al.P-wave attenuation and dispersion in a porous medium permeated by aligned fracturesa new poroelastic approach. Journal of Geophysics and Engineering, 2012, 9(2):doi:10.1088/1742-2132/9/2/115. (SCI检索,被引用1)

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[12]Shi, R. Q., Wang, S. X. and Zhao, J. G. An unsplit complex-frequency-shifted PML based on matched Z-transform for FDTD modelling of seismic wave equations. Journal of Geophysics and Engineering, 2012, 9(2): 218-229. (SCI检索)

[13]Yu, Y. C., Wang, S. X. and Yuan, S. Y. Phase spectrum estimation of the seismic wavelet based on a criterion function. Petroleum Science, 2012, 9(2): 170-181. (SCI检索)

[14]Chen, S. Q., Li, X. Y. and Wang, S. X. The analysis of frequency-dependent characteristics for fluid detection: a physical model experiment. Applied Geophysics, 2012, 9(2): 195-206. (SCI检索)

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[17]邓继新,王尚旭,杜伟.介观尺度孔隙流体流动作用对纵波传播特征的影响研究——以周期性层状孔隙介质为例.地球物理学报, 2012, 55(8): 2716-2727. (SCI检索)

[18]Yuan, S. Y. and Wang, S. X. Influence of inaccurate wavelet phase estimation on seismic inversion. Applied Geophysics, 2011, 8(1): 48-59. (SCI检索,被引用2)

[19]Yuan, S. Y. and Wang, S. X. A local f-x Cadzow method for noise reduction of seismic data obtained in complex formations. Petroleum Science, 2011, 8(3): 269-277. (SCI检索,被引用2)

[20]Yu, Y. C., Wang, S. X. and Yuan, S. Y., et al.Phase estimation in bispectral domain based on conformal mapping and applications in seismic wavelet estimation. Applied Geophysics, 2011, 8(1): 36-47. (SCI检索,被引用2)

[21]Lin, C. R., and Wang, S. X.Application of the method of extracting local exponential fitting abnormity to Puguang gas field. Chinese J. Geophys. (in Chinese), 2011, 54(1): 218-226. (SCI检索,被引用2)

[22]Tillotson, P., Chapman, M., Best, A. I., Sothcott, J., McCann, C., Wang, S. X. , and Li, X. Y. Observations of fluid-dependent shear-wave splitting in synthetic porous rocks with aligned penny-shaped fractures. Geophysical Prospecting, 2011, 59(1): 111-119. (SCI检索,被引用4)

[23]邓继新,韩德华,王尚旭.应力松弛对颗粒物质弹性性质的影响及等效介质模型校正研究.地球物理学报, 2011, 54(4): 1079-1089. (SCI检索,被引用1)

[24]Wang, S. X., Li, X. Y. and Di, B. R., et al.Reservoir fluid substitution effects on seismic profile interpretation: A physical modeling experiment. Geophysical Research Letters, 2010, 37(10): L10306. (SCI检索)

[25]邓继新,王尚旭,韩德华.未固结砂岩地震弹性性质的岩石物理模型表征研究.石油地球物理勘探, 2010, 45(2): 248-253.

[26]Deng, J. X., Wang, S. X. andHan, D. H.The velocity and attenuation anisotropy of shale at ultrasonic frequency. Journal of Geophysics and Engineering, 2009, 6(3): 269-278.(SCI检索,被引用4)

[27]Yuan, S. Y., Wang, S. X. and Tian, N. Swarm intelligence optimization and its application in geophysical data inversion. Applied Geophysics, 2009, 6(2): 166-174. (SCI检索,被引用10)

[28]Chen, S. Q., Wang, S. X. and Zhang, Y. G.Reservoir prediction using pre-stack inverted elastic parameters. Applied Geophysics, 2009, 6(4): 349-358. (SCI检索,被引用2)

[29]林昌荣,王尚旭,马在田,.地震数据体结构特征时空关系与油气预测.石油勘探与开发. 2009, 36(2): 208-215.

[30]邓继新,王尚旭.含气储层饱和度反演的岩石物理基础及其实现.石油天然气学报, 2009,31(1).

[31]杜婧,王尚旭,刘国昌.基于局部斜率属性的VSP波场分离研究.地球物理学报, 2009, 52(7): 1867-1872. (SCI检索,被引用4)

[32]邓继新,王尚旭.储层砂岩纵波衰减的实验结果分析.石油物探, 2008, 47(4): 346-351.

[33]薛东川,王尚旭.波动方程有限元叠前逆时偏移.石油地球物理勘探, 2008, 43(1): 17-21.

[34]林昌荣,王尚旭.应用地震数据体结构特征法预测孔缝洞型油气储层.石油地球物理勘探, 2008, 43(4): 415-421.

[35]邓继新,韩德华,王尚旭.基于正演模型的储层谱分解响应特征分析.石油学报,2008,29(4):539-543.

[36]薛东川,王尚旭.利用组合质量矩阵压制数值频散.石油地球物理勘探, 2008, 43(3): 318-320.

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[38]Wang, S. X. and Li, X. Y. Layer stripping of azimuthal anisotropy from P-wave reflection moveout in orthogonal survey lines. Journal of Geophysics and Engineering, 2006, 3(1): 1-11. (SCI检索,被引用15)

[39]Mu, L., Arihara, N. and Wang, S. X., et al. Abnormal transmission attenuation and its impact on seismic-fracture predictionA physical modeling study. Geophysics, 2006, 71(1): D15-D22. (SCI检索,被引用4)

[40]Lin, C. R., Wang, S. X. and Zhang, Y. Predicting the distribution of reservoirs by applying the method of seismic data structure characteristics: Example from the eighth zone in Tahe Oilfield. Applied Geophysics, 2006, 3(4): 234-242.

[41]尹尚先,王尚旭.不同尺度下岩层渗透性与地应力的关系及机理.中国科学D.地球科学, 2006, 36 (5): 472-480. (SCI检索)

[42]陈双全,王尚旭,魏建新.地震物理模型AVO分析中的开角补偿方法.石油地球物理勘探, 2006, 41(2): 133-136.

[43]Yao, Y., Sa, L. M. and Wang, S. X. Research on the seismic wave field of karst cavern reservoirs near deep carbonate weathered crusts. Applied Geophysics, 2005, 2(2): 94-102.

[44]邓继新,王尚旭,史謌.模拟储层条件下部分饱和砂岩速度实验结果及其理论解释.石油地球物理勘探, 2005, 40(5): 530-534.

[45]陈双全,王尚旭,季敏.基于信号保真的地震数据插值.石油地球物理勘探, 2005, 40(05): 43-45.

[46]邓继新,王尚旭,俞军.不同压力条件下部分饱和砂岩速度实验结果及理论解释.石油地球物理勘探, 2005, 40(05): 58-62.

[47]Wang, S. X. and Lin, C. R. The analysis of seismic data structure and oil and gas prediction. Applied Geophysics, 2004, 1(2): 75-82.

[48]尹尚先,王尚旭,武强.陷落柱突水模式及理论判据.岩石力学与工程学报, 2004, 06: 964-968.

[49]宋炜,王守东,王尚旭.井间地震资料克希霍夫积分法叠前深度偏移.石油物探, 2004, 06: 523-527.

[50]尹尚先,王尚旭.弹性模量、波速与应力的关系及其应用.岩土力学, 2003, S2: 597-601.

[51] Shangxu Wang, Jian-Guo Zhao, Zhen-hua Li, Jerry M. Harris, Youli Quan, “Differential Acoustic Response Spectroscopy for Acoustic Measurement of Small and Irregular Samples,” Journal of Geophysical Research, Vol. 117(B06203), June, 2012(JCR2TOP期刊,SCI, EIIF=3.703 )

[52] Jian-guo Zhao, Shang-xu Wang, Han-jun Yin etc, “Differential Acoustic Resonance Spectroscopy: Improved theory and application in the low frequency range”, Geophysical Journal International, 2015(accepted, JCR2TOP期刊,SCI, EIIF=2.853)

[53] Jian-guo Zhao, Shang-xu Wang, Zhe Li, Xian Wei and Han-jun Yin. Studies on dispersion of reservoir rocks using multi-band direct laboratory measurement methodology with micor-CT scnning. 76th EAGE conference, 2014, Amsterdam, Holand

[54]赵建国,史瑞其,陈竞一,潘建国,王宏斌,粘性声波方程数值正演中的匹配Z变换完全匹配层吸收边界,地球物理学报,2014, 574),1284-1291SCI

[55]赵建国,史瑞其,陈竞一,赵维俊,王宏斌,潘建国,辅助微分方程完全匹配层在声波方程数值模拟中的应用,吉林大学学报,2014442),pp. 675-683 (核心)

[56] Jian-Guo Zhao, Rui-Qi Shi, “A perfectly matched layer absorbing boundary condition for the finite-element time-domain modeling of elastic wave equation”,Applied Geophysics, 2013, Vol. 10, No.3, p. 323-336.(SCI, EI)

[57] Cheng Jingyi, Jian-Guo Zhao, “Application of the nearly perfectly matched layer to seismic wave propagation modeling in elastic anisotropic media,” Bull. Seism. Soc. Am., Vol. 101, No.6, pp. 2866-2871, Dec. 2011 (JCR3区,SCI, EIIF=1.860)

  

[58] J. G. Zhao and M. Sato, “Radar polarimetry analysis applied to single-hole fully polarimetric borehole radar,” IEEE Transaction on Geosc. and Remote Sensing, vol. 44, pp. 3547-3554, Dec. 2006 (JCR2TOP期刊,SCI, EI, IF=3.873)

[59] J. G. Zhao and M. Sato, “Consistency analysis of subsurface fracture characterization with several polarimetry techniques,” IEEE Geosc. and Remote Sensing Letters, vol.4, No. 3, pp. 359-363, July 2007 (JCR2区,SCI, EIIF=1.832)

[60] J. G. Zhao and M. Sato, “Experimental implementation and assessment of two polarimetric calibration approaches applied for a fully polarimetric borehole radar”, Journal of Geophysics and Engineering, vol. 5, No. 2, pp. 232-242, 2008. (JCR4区,SCI,EI, IF=0.787)

[61] Yuan, S. Y., Wang, S. X., Luo, C. M., and He, Y. X.Simultaneous multitrace impedance inversion with transform-domain sparsity promotion. Geophysics, 2015, 80(2): R71-R80.(SCI三区)

[62] Yuan, S. Y., Wang, S. X., Sun, W. J., Miao, L. N., and Li, Z. H.Perfectly matched layer on curvilinear grid for the second-order seismic acoustic wave equation. Exploration Geophysics, 2014, 45: 94-104.(SCI)

[63] Yuan, S. Y., and Wang, S. X. Spectral sparse Bayesian learning reflectivity inversion. Geophysical Prospecting, 2013, 61(4), 735 - 746. (SCI三区)

[64] Yuan, S. Y. and Wang, S. X.Edge-preserving noise reduction based on Bayesian inversion with directional difference constraints.Journal of Geophysics and Engineering, 2013, 10(2): 025001.(SCI)

[65] Yuan, S. Y., Wang, S. X. and Li, G. F. Random noise reduction using Bayesian inversion. Journal of Geophysics and Engineering, 2012, 9(1): 60-68. (SCI)

[66] Yuan, S. Y. and Wang, S. X. Influence of inaccurate wavelet phase estimation on seismic inversion. Applied Geophysics, 2011, 8(1): 48-59. (SCI)

[67] Yuan, S. Y. and Wang, S. X. A local f-x Cadzow method for noise reduction of seismic data obtained in complex formations. Petroleum Science, 2011, 8(3): 269-277. (SCI)

[68] Yuan, S. Y., Wang, S. X. and Tian, N.Swarm intelligence optimization and its application in geophysical data inversion. Applied Geophysics, 2009, 6(2): 166-174. (SCI)

[69] Luo, C.M,, Wang, S.X., Yuan, S.Y., Effect of inaccurate wavelet phase on prestack waveform inversion. Applied Geophysics, 2014, 11(4): 479-488. (SCI)

  

实验室文章

  

  

2014

1. Yin X Y, Zong Z Y, Wu G C. Research on seismic fluid identificationdrivenby rock physics[J].Science China Earth Sciences, 2014: 1-13.

2013

1.Zong Z, Yin X, Wu G. Elastic impedance parameterization and inversion with Young’s modulus and Poisson’s ratio. Geophysics. 2013;78(6):N35-N42. (SCI/EI检索)

2.Yin X, Zong Z, Wu G. Improving seismic interpretation: a high-contrast approximation to the reflection coefficient of a plane longitudinal wave. Petroleum Science.2013;10(4):466-76. (SCI/EI检索)

3.Zong Z, Yin X, Wu G. Multi-parameter nonlinear inversion with exact reflection coefficient equation. Journal of Applied Geophysics. 2013;98:21-32. (SCI/EI检索)

4. Zong Z, Yin X, Wu G. Elastic impedance variation with angle inversion for elastic parameters. Journal of Geophysics and Engineering. 2012;9(3):247. (SCI/EI检索)

5.Zong Z, Yin X, Wu G. AVO inversion and poroelasticity with P-and S-wave moduli. Geophysics. 2012;77(6):N17-N24. (SCI/EI检索)

6. Shixin Z, Xingyao Y, Guangzhi Z. Dispersion-dependent attribute and application in hydrocarbon detection. Journal of Geophysics and Engineering. 2011;8(4):498. (SCI/EI检索)

7.宗兆云,印兴耀,张峰,吴国忱.杨氏模量和泊松比反射系数近似方程及叠前地震反演.地球物理学报. 2013;55(11):3786-94. (SCI/EI检索)

8.宗兆云,印兴耀,吴国忱.基于叠前地震纵横波模量直接反演的流体检测方法.地球物理学报. 2012;55(1):284-92. (SCI/EI检索)

9.张繁昌,李传辉.基于正交时频原子的地震信号快速匹配追踪.地球物理学报. 2012;55(1):277-83. (SCI/EI检索)

10.张广智,王丹阳,印兴耀,李宁.基于 MCMC的叠前地震反演方法研究.地球物理学报. 2012;54(11):2926-32. (SCI/EI检索)

11.孙林洁,印兴耀.基于 PML边界条件的高倍可变网格有限差分数值模拟方法.地球物理学报. 2011;54(6):1614-23. (SCI/EI检索)

12.杨培杰,印兴耀.非线性二次规划贝叶斯叠前反演.地球物理学报. 2008;51(6):1876-82.

13.陈建江,印兴耀.基于贝叶斯理论的 AVO三参数波形反演.地球物理学报. 2007;50(4):1251-60. (SCI/EI检索)

14.刘定进,印兴耀.傅里叶有限差分法保幅叠前深度偏移方法.地球物理学报. 2007;50(1):268-76. (SCI/EI检索)

15.王保丽,印兴耀.基于弹性波阻抗的拉梅参数反演与应用.应用地球物理(英文版) SCI. 2006;3(3). (SCI/EI检索)

16.印兴耀,李超,张世鑫.基于双相介质的地震流体识别.中国石油大学学报:自然科学版. 2013;37(5):38-43. (EI检索)

17.印兴耀,刘欣欣,曹丹平.基于 Biot相洽理论的致密砂岩弹性参数计算方法.石油物探. 2013;52(5):445-51. (EI检索)

18.蔡纪琰,孙成禹,项龙云,张晓钊.炸药震源定向激发方式数值模拟及效果对比.石油物探. 2013;52(2):184-94. (EI检索)

19.何兵红,吴国忱,郭念民.基于叠前地震道集的 FVO分析方法.石油地球物理勘探. 2013 (1):94-102. (EI检索)

20.张繁昌,李传辉.地震信号复数域高效匹配追踪分解.石油地球物理勘探. 2013;2:003. (EI检索)

21.刘欣欣,印兴耀,峰.一种碳酸盐岩储层横波速度估算方法.中国石油大学学报:自然科学版. 2013 (1):42-9. (EI检索)

22.刘依谋,梁向豪,印兴耀,陈学强,王彦峰.面向碳酸盐岩缝洞型储层的高密度全方位三维地震采集技术及应用效果.石油物探. 2013;52(4):372-82. (EI检索)

23.李春鹏,印兴耀,张峰. HTI介质饱和流体特性和裂缝密度对方位反射系数的影响.石油物探. 2013;52(1):1-10. (EI检索)

24.唐杰,郭渊,孙成禹,林腾飞.碳酸盐岩波速与弹性模量变化规律试验研究.中国石油大学学报:自然科学版. 2012;36(5):62-6. (EI检索)

25.郝前勇,印兴耀,张繁昌,王保丽.基于地震数据的岩石弹性参数反演方法.中国石油大学学报:自然科学版. 2012;36(5):56-61. (EI检索)

26.郝前勇,印兴耀,王玉梅,钮学民,张繁昌.弹性模量流体因子在永新工区储层预测中的应用.石油物探. 2012;51(5):502-7. (EI检索)

27.张广智,李呈呈,印兴耀,张金强.基于修正 Xu-White模型的碳酸盐岩横波速度估算方法.石油地球物理勘探. 2012;47(5):717-22. (EI检索)

28.何兵红,吴国忱.利用叠前地震资料提取地层相对吸收系数.石油地球物理勘探. 2012;47(4):610-8. (EI检索)

29.张广智,郑静静,王玉梅,钮学民,印兴耀.基于入射角的 AVO近似及属性提取.石油地球物理勘探. 2012;47(4):578-83. (EI检索)

30.孙成禹,丁玉才.波动方程有限差分双变网格算法的精度分析.石油地球物理勘探. 2012;47(4):545-51. (EI检索)

31.胡华锋,印兴耀,吴国忱.基于贝叶斯分类的储层物性参数联合反演方法.石油物探. 2012;51(3):225-32. (EI检索)

32.李传辉,张繁昌.地震信号可变分辨率匹配追踪频谱成像方法.石油物探. 2012;51(3):213-8. (EI检索)

33.郭念民,吴国忱.基于 PML边界的变网格高阶有限差分声波方程逆时偏移.石油地球物理勘探. 2012;47(002):256-65. (EI检索)

34.陈康,吴国忱.逆时偏移拉普拉斯算子滤波改进算法.石油地球物理勘探. 2012;47(2):249-55. (EI检索)

35.李海山,吴国忱,印兴耀.形态分量分析在地震数据重建中的应用.石油地球物理勘探. 2012;47(002):236-43. (EI检索)

36.王小杰,印兴耀,吴国忱.基于 S变换的吸收衰减技术在含气储层预测中的应用研究.石油物探. 2012;51(1):37-42. (EI检索)

37.印兴耀,叶端南,张广智.基于核空间的模糊聚类方法在储层预测中的应用.中国石油大学学报:自然科学版. 2012;36(1):53-9. (EI检索)

38.张繁昌,李传辉,印兴耀.三角洲砂岩尖灭线的地震匹配追踪瞬时谱识别方法.石油地球物理勘探. 2012;47(001):82-8. (EI检索)

39.郭念民,尚新民,刘欣欣,王淑玲.非重复性时移地震数据关键处理技术应用研究.石油地球物理勘探. 2011;46(4):581-92. (EI检索)

40.郭念民,吴国忱,尚新民.互均化方法在非重复时移地震数据处理中的应用.石油物探. 2012;50(6):600-6. (EI检索)

41.张世鑫,印兴耀,张繁昌.岩石物理模型约束拉梅参数提取方法.中国石油大学学报:自然科学版. 2011;35(4):59-63. (EI检索)

42.肖云飞,殷厚成,孙成禹,陈林,常鉴,徐国庆, et al.基于随机介质模型的近地表波场模拟及分析.石油物探. 2011;50(4):336-44. (EI检索)

43.宗兆云,印兴耀,吴国忱.拉梅参数直接反演技术在碳酸盐岩缝洞型储层流体检测中的应用.石油物探. 2011;50(3):241-6. (EI检索)

44.张世鑫,印兴耀,张广智,王小杰.纵波速度频散属性反演方法研究.石油物探. 2011;50(3):219-24. (EI检索)

45.张广智,王丹阳,印兴耀.利用 MCMC方法估算地震参数.石油地球物理勘探. 2011;46(4):605-9. (EI检索)

46.张世鑫,印兴耀,张繁昌.基于三变量柯西分布先验约束的叠前三参数反演方法.石油地球物理勘探. 2011;46(5):737-43. (EI检索)

47.宗兆云,印兴耀,张繁昌.基于弹性阻抗贝叶斯反演的拉梅参数提取方法研究.石油地球物理勘探. 2011;46(4):598-604. (EI检索)

48.张广智,郑静静,印兴耀.基于Curvelet变换的多尺度性识别裂缝发育带.石油地球物理勘探. 2011;46(5):757-62. (EI检索)

49.孙成禹,尚新民,石翠翠,芮拥军.影响地震数据相位特征的因素分析.石油物探. 2011;50(5):444-54. (EI检索)

50.桂金咏,印兴耀,曹丹平.基于弹性阻抗反演理论的泊松比反演方法研究.石油物探. 2011;50(5):463-9. (EI检索)

51.王军,周东红,张中巧,张繁昌,张世鑫.叠前弹性波阻抗反演在流体检测中的应用——以渤海海域QHD29-2区块为例.石油物探. 2011;50(5):475-80. (EI检索)

52.苗永康,王玉梅,吴国忱,慎国强.济阳坳陷 Y3地区基于地震资料的流体识别方法.石油物探. 2010 (1):62-7. (EI检索)

53.张世鑫,张繁昌,李少鹏,印兴耀,常炳章.泌阳凹陷安店区块薄储层精细预测.石油物探. 2010 (1):34-41. (EI检索)

54.张繁昌,李传辉,印兴耀.基于动态匹配子波库的地震数据快速匹配追踪.石油地球物理勘探. 2010;45(5):667-73. (EI检索)

55.张永学,印兴耀,宋建平.提高地震仪器谐波畸变测试精度的方法.石油地球物理勘探. 2010;45:633-6. (EI检索)

56.胡立新,彭洪超,于富文,孙成禹,杨德宽,宫同举.井中近源三分量波场调查试验与数据分析.石油物探. 2010 (1):12-8. (EI检索)

57.印兴耀,张世鑫,张繁昌,郝前勇.利用基于Russell近似的弹性波阻抗反演进行储层描述和流体识别.石油地球物理勘探. 2010 (3):373-80. (EI检索)

58.刘定进,印兴耀,陆树勤,杨瑞娟,王丽.波动方程保幅叠前深度偏移与AVO响应.中国石油大学学报:自然科学版. 2009 (4):45-51. (EI检索)

59.于雯泉,林承焰,孙晓庆,吴国忱,李丽.断陷盆地深层膏盐层系砂砾岩体细分层方法.中国石油大学学报:自然科学版. 2009;33(1):1-6. (EI检索)

60.杨玉杰,曲寿利,印兴耀.平面地震属性的去噪方法.石油地球物理勘探. 2009;44(5):553-7. (EI检索)

61.郑静静,印兴耀,张广智.基于Curvelet变换的多尺度分析技术.石油地球物理勘探. 2009;44(5):543-7. (EI检索)

62.李爱山,印兴耀,陆娜,张广智.两个角度弹性阻抗反演在中深层含气储层预测中的应用.石油地球物理勘探. 2009;44(1):87-92. (EI检索)

63.孙成禹,宫同举,张玉亮,张文颖.波动方程有限差分法中的频散与假频分析.石油地球物理勘探. 2009;44(1):43-8. (EI检索)

64.梁锴,吴国忱,印兴耀,白晓寅.三维TTI介质波动方程分解.石油地球物理勘探. 2009;44(1):19-27. (EI检索)

65.孙成禹,孙甜甜,彭洪超,肖云飞.单点地震数据的一致性组合叠加方法.石油地球物理勘探. 2009;44(A01):23-8. (EI检索)

66.韩站一,尚新民,孙成禹,刘立彬,韩宏伟.火成岩下伏地层地震反射波场特征研究.石油物探. 2009;48(3):226-31. (EI检索)

67.杨培杰,穆星,印兴耀.叠前三参数同步反演方法及其应用.石油学报. 2009;30(2):232-6. (EI检索)

68.杨培杰,印兴耀,张欣.叠后地震盲反演及其应用.石油地球物理勘探. 2008;43(3):284-90. (EI检索)

69.曹丹平,印兴耀,张繁昌,孔庆丰.改进的井间地震资料波阻抗反演方法.中国石油大学学报:自然科学版. 2008;32(2):34-8. (EI检索)

70.杨培杰,印兴耀.基于支持向量机的叠前地震反演方法.中国石油大学学报:自然科学版. 2008;32(1):37-41. (EI检索)

71.张繁昌,刘杰,印兴耀,杨培杰.修正柯西约束地震盲反褶积方法.石油地球物理勘探. 2008 (4). (EI检索)

72.张永学,印兴耀,宋建平,张在陆,薛会珍.测试地震数据采集系统总谐波畸变的剪切FFT算法.石油地球物理勘探. 2008;43(3):252-6. (EI检索)

73.印兴耀,孔国英,张广智.基于核主成分分析的地震属性优化方法及应用.石油地球物理勘探. 2008 (2). (EI检索)

74.曹丹平,印兴耀,张繁昌,孔庆丰.连井井间地震资料反演中的关键问题分析.石油物探. 2008;47(5):455-60. (EI检索)

75.仲伯军,印兴耀.复杂地区三维地震资料拼接中的一致性处理技术.石油物探. 2009;47(4):393-7. (EI检索)

76.武文来,印兴耀,王咸彬,刘传奇,吕丁友,侯冬梅, et al. 235岩石物理参数与地球物理特征关系研究----QHD326油田为例. 2008. (EI检索)

77.杨培杰,印兴耀.地震子波提取方法综述.石油地球物理勘探. 2008 (1). (EI检索)

78.孙成禹,万学娟,倪长宽.弱连接界面地层地震反射波场的正演方法.石油物探. 2007;46(5):425-32. (EI检索)

79.孙成禹,倪长宽,李胜军,张玉华.广角地震反射数据特征及校正方法研究.石油地球物理勘探. 2007;42(1):24-9. (EI检索)

80.吴国忱,梁锴,王华忠. VTI介质qP波广义高阶屏单程传播算子.石油地球物理勘探. 2008;42(6):640-50. (EI检索)

81.张明振,印兴耀,谭明友,刘秉建.对测井约束地震波阻抗反演的理解与应用.石油地球物理勘探. 2008;42(6):699-702. (EI检索)

82.邵才瑞,印兴耀,李洪奇,张福明,关丽.储层属性的遗传神经克里金插值方法及其应用.中国石油大学学报(自然科学版). 2007;31(5):35-4o. (EI检索)

83.王保丽,印兴耀,张繁昌.基于Gray近似的弹性波阻抗方程及反演.石油地球物理勘探. 2007;42(4):435-9. (EI检索)

84.杨培杰,印兴耀,张广智,刘杰.三谱混合相位子波估计与最大后验反褶积.石油地球物理勘探. 2007;42(4):396-401. (EI检索)

85.郭栋,王兴谋,印兴耀,吴国忱.横波速度计算方法与应用.油气地球物理. 2007;5(3):18-22. (EI检索)

86.梁锴,吴国忱,印兴耀. TTI介质qP波方程频率-空间域加权平均有限差分算子.石油地球物理勘探. 2007;42(5):516-25. (EI检索)

87.印兴耀,刘杰,杨培杰.一种基于负熵的Bussgang地震盲反褶积方法.石油地球物理勘探. 2007;42(5):499-505. (EI检索)

88.张璐,印兴耀,翁斌.油气储层识别软件的研制.中国石油大学学报:自然科学版. 2007;31(4):24-9. (EI检索)

89.杨培杰,印兴耀,张广智.模糊C均值地震属性聚类分析.石油地球物理勘探. 2007;42(3):322-4. (EI检索)

90.陈建江,印兴耀,张广智.基于贝叶斯理论的振幅随偏移距变化三参数同步反演.中国石油大学学报:自然科学版. 2007;31(3):33-8. (EI检索)

91.杨阳,曲寿利,印兴耀.沿层地震属性数据空间滤波去噪方法.石油地球物理勘探. 2007;42(2):208-11. (EI检索)

92.李爱山,印兴耀,张繁昌,王保丽.叠前AVA多参数同步反演技术在含气储层预测中的应用.石油物探. 2007;46(1):64-8. (EI检索)

93.张广智,印兴耀,刘洪.地震子波外推方法研究.中国石油大学学报:自然科学版. 2007;31(1):25-9. (EI检索)

94.刘定进,印兴耀.基于双平方根方程的保幅地震偏移.石油地球物理勘探. 2007;42(1):11-6. (EI检索)

95.印兴耀,赵剑,张繁昌,孙成禹,罗焕章.球面波叠前地震记录的合成方法.中国石油大学学报:自然科学版. 2006;30(1):26-32. (EI检索)

96.穆星,印兴耀,王孟勇.济阳坳陷储层地震地质综合预测技术研究.石油物探. 2006;45(4):351-6. (EI检索)

97.陈建江,印兴耀,张广智.层状介质AVO叠前反演.石油地球物理勘探. 2007;41(6):656-62. (EI检索)

98.印兴耀,贺维胜,黄旭日.贝叶斯-序贯高斯模拟方法.石油大学学报:自然科学版. 2006;29(5):28-32. (EI检索)

99.王锐,孙成禹,尚新民.有限熵反褶积.石油地球物理勘探. 2006;40(6):637-41. (EI检索)

100.张繁昌,印兴耀.层状半空间地震数据的弹性波方程反演.石油地球物理勘探. 2006;40(5):523-9. (EI检索)

101.吴国忱,梁锴. VTI介质频率——空间域准P波正演模拟.石油地球物理勘探. 2006;40(5):535-45. (EI检索)

102.王永刚,朱兆林,曹丹平.井间地震资料深度域合成记录的制作方法.石油大学学报:自然科学版. 2005;29(3):27-30. (EI检索)

103.孙成禹.非零炮检距菲涅耳带研究.石油大学学报:自然科学版. 2005;29(1):26-9. (EI检索)

104.杨国权,王永刚,朱兆林,刘磊,曹丹平.井间地震资料层位标定方法研究.石油物探. 2005;44(3):217-9. (EI检索)

105.孙成禹,张玉华,王学彩.线性过渡层复合体的地震反射特征研究.石油物探. 2005;44(4):320-4. (EI检索)

106.吴国忱,梁锴. VTI介质准P波频率空间域组合边界条件研究.石油物探. 2005;44(4):301-7. (EI检索)

107.施振飞,印兴耀.利用井间地震资料与测井资料进行储层精细解释.石油地球物理勘探. 2005;40(2):172-5. (EI检索)

108.张广智,刘洪,印兴耀.井旁道地震子波精细提取方法.石油地球物理勘探. 2005;40(2):158-62. (EI检索)

109.孙成禹,张吉辉.完全纵波方程有限差分波场模拟.石油地球物理勘探. 2005;40(3):289-94. (EI检索)

110.印兴耀,周静毅.地震属性优化方法综述.石油地球物理勘探. 2005;40(4):482-9. (EI检索)

111.孙成禹.粗糙界面地震反射波场的滤波特性.石油地球物理勘探. 2004;39(1):24-8. (EI检索)

112.徐广民,王华忠,范华,辛可峰,吴国忱,陈猛.复杂介质常梯度射线追踪方法研究.石油地球物理勘探. 2004;39(3):265-70. (EI检索)

113.刘永社,印兴耀,贺维胜.空间相关分析因素对储层建模中克里金估计结果的影响.石油大学学报:自然科学版. 2004;28(2):24-7. (EI检索)

114.张繁昌,印兴耀.一种叠前地震记录的全波场正反演方法.石油物探. 2004;43(3):217-22. (EI检索)

115.张繁昌,印兴耀.用多层前馈网络进行三维储层参数反演的方法.石油大学学报:自然科学版. 2004;28(1):31-5. (EI检索)

116.吴国忱,王华忠,马在田.常速度梯度射线追踪与二维层速度反演.石油物探. 2004;42(4):434-40. (EI检索)

117.王永刚,段世民,朱兆林,曹丹平.复杂地表条件下检波器组合的特性分析.石油地球物理勘探. 2003;38(2):126-30. (EI检索)

118.张繁昌,印兴耀,赵剑.慢度法全波场模拟及其水平慢度积分的实现.石油地球物理勘探. 2004;38(6):597-602. (EI检索)

119.印兴耀,张奎,张广智.联合时频分布及其属性的应用.石油地球物理勘探. 2003;38(5):522-6. (EI检索)

120.印兴耀,刘永社.储层建模申地质统计学整地震数据的方法及砰究进展.石油地球物理勘探. 2002. (EI检索)

121.孙成禹.过渡层反射特征及脉冲波的振幅调谐现象.石油物探. 2001;40(3):1-7. (EI检索)

122.吴国忱,康仁华.三维时频分析方法在地震层序分析中的应用.石油大学学报:自然科学版. 2000;24(1):81-4. (EI检索)

123.孙成禹.空变地震子波提取方法研究.石油大学学报:自然科学版. 2000;24(1):77-80. (EI检索)

124.孙成禹.地震资料的双约束频谱补偿方法.石油物探. 2000;39(1):35-41. (EI检索)

125.孙成禹.球面波分解理论及其倾斜叠加方法的实现.石油地球物理勘探. 2000;35(6):723-9. (EI检索)

126.孙成禹.谱模拟方法及其在提高地震资料分辨率中的应用.石油地球物理勘探. 2000;35(1):27-35. (EI检索)

127.司芗,吴国忱.裂隙等效 TTI介质 qP波反射特征研究.地球物理学进展. 2013;27(5):2091-9. (核心)

128.张广智,李宁,李超,陈怀震,陈雷.基于非常快速模拟退火算法的地震谱反演方法.西北地震学报. 2012;34(4):313-8. (核心)

129.唐杰,孙成禹,周家惠,郭渊.岩石非线性阻尼滞后响应特性研究.岩石力学与工程学报. 2012;31(A01):2948-55. (核心)

130.李海山,吴国忱,印兴耀.基于广义高斯分布的地震盲反褶积方法研究.地球物理学进展. 2012;27(3):936-44. (核心)

131.王小杰,印兴耀,吴国忱.粘弹性介质地震波传播特征及反射特征研究.物探化探计算技术. 2012;34(3):258-66. (核心)

132.张广智,陈怀震,印兴耀,李宁,杨葆军.基于各向异性 AVO的裂缝弹性参数叠前反演方法.吉林大学学报 (地球科学版).2012;3:032. (核心)

133.郭念民,吴国忱.非重复采集时移地震正演模拟及可行性分析.地球物理学进展. 2012;27(1):232-45. (核心)

134.李海山,吴国忱,印兴耀.形态分量分析在去除地震资料随机噪声中的应用.吉林大学学报 (地球科学版). 2012;42(2):554-61. (核心)

135.张世鑫,印兴耀,梁锴,何兵红.利用基于TK算子的非线性能量衰减分析技术进行储层含油气检测.地球物理学进展. 2012;26(6):2107-13. (核心)

136.王小杰,印兴耀.基于零相位子波地层Q值估计.地球物理学进展. 2012;26(6):2090-8. (核心)

137.雷蕾,印兴耀,张厚淼.孔洞性介质地震散射波场正演模拟.特种油气藏. 2011;18(3):64-7. (核心)

138.张岩,吴国忱. TTI介质叠前逆时偏移成像研究综述.地球物理学进展. 2013 (1):409-20. (核心)

139.张繁昌,印海燕,翁斌,王保丽.一种地震共反射点道集数据的叠前反演方法.物探化探计算技术. 2011;33(001):11-9. (核心)

140.张广智,陈雷.基于 GPU的地震属性提取.物探化探计算技术. 2011;33(4):358-63. (核心)

141.张广智,郑静静,印兴耀,陈怀震.基于角度部份叠加地震数据的流体识别技术.物探化探计算技术. 2011;33(5):467-76. (核心)

142.张繁昌,李传辉.非平稳地震信号匹配追踪时频分析.物探与化探. 2011;35(4):546-52. (核心)

143.张广智,郑静静,印兴耀,张作胜,武国虎.基于 Curvelet变换的角度流体因子提取技术.物探与化探. 2011;35(4):505-10. (核心)

144.赵茂强,吴国忱.基于高阶有限差分纵横波分解的弹性波数值模拟.物探化探计算技术. 2010;32(5):487-94. (核心)

145.张繁昌,李传辉,吴国忱,王保丽.地层吸收对弹性参数的影响和叠前 QAVO反演.物探化探计算技术. 2010;32(3):232-40. (核心)

146.孙成禹,肖云飞,印兴耀,彭洪超.黏弹介质波动方程有限差分解的稳定性研究.地震学报. 2010;32(2):147-56. (核心)

147.张世鑫,印兴耀,孔国英,张繁昌.基于岩石物理模型的最优化 AVO三参数同步反演方法.中国海上油气. 2010;22(005):300-4. (核心)

148.李传辉,张繁昌,印兴耀.三种线性时频分析方法的影响因素及精度分析.石油天然气学报. 2010;32(4):239-42. (核心)

149.宫同举,孙成禹,彭洪超,肖云飞,孙甜甜.几种提取品质因子方法的对比分析.勘探地球物理进展. 2009;32(4):252-6. (核心)

150.邵才瑞,印兴耀,张福明,宋明水.利用常规测井资料基于岩石物理和多矿物分析反演横波速度.地球科学:中国地质大学学报. 2009 (4):699-707. (核心)

151.张璐,印兴耀,李红梅,于雯泉.基于地震奇异性属性划分砂砾岩扇体沉积界面.物探化探计算技术. 2009;31(4):361-8. (核心)

152.徐凯军,刘展,吴国忱,孙成禹.地质雷达在镇巴地区露头地质调查中的应用.工程地球物理学报. 2009 (2):177-80. (核心)

153.王绍先,彭志刚,印兴耀.新型油井水泥分散剂 AS的研制及其应用.济南大学学报:自然科学版. 2008;22(4):334-7. (核心)

154.曹丹平,印兴耀,张繁昌,孔庆丰.井间地震资料精细解释方法研究与应用.地球物理学进展. 2008;23(4):1209-15. (核心)

155.李爱山,印兴耀,张繁昌,刘志国. VTI介质中的弹性阻抗与参数提取.地球物理学进展. 2009;23(6):1878-85. (核心)

156.郭栋,吴国忱.基于弹性波阻抗理论的岩性参数提取方法及应用.油气地球物理. 2008 (1):16-20. (核心)

157.郭栋,韩文功,王兴谋,印兴耀.地层吸收特征参数分析预测深层气藏方法.油气地球物理. 2009 (3):20-4. (核心)

158.尚新民,李红梅,韩文功,夏斌,孙成禹.基于岩石物理与地震正演的 AVO分析方法倡.地质与勘探. 2008. (核心)

159.李胜军,孙成禹,张玉华,倪长宽.波动方程的变步长有限差分数值模拟.油气地球物理. 2007;5(3):5-8. (核心)

160.李胜军,孙成禹,倪长宽,张玉华.声波方程有限差分数值模拟的变网格步长算法.工程地球物理学报. 2007;4(3):207-12. (核心)

161.孙成禹,张玉亮,万学娟.平面波在粘滞性界面上的反射特征研究.地球物理学进展. 2007;22(2):609-16. (核心)

162.吴国忱,罗彩明,梁楷. TTI介质弹性波频率-空间域有限差分数值模拟.吉林大学学报:地球科学版. 2007;37(5):1023-33. (核心)

163.吴国忱,梁锴. VTI介质 qP波方程高精度有限差分算子.地球物理学进展. 2007;22(3):896-904. (核心)

164.张明振,印兴耀,杨长春,谭明友,宋艳芳.曲流河沉积微相的三维地震描述.油气地球物理. 2007;5(1):39-42. (核心)

165.杨培杰,印兴耀,张广智.希尔伯特-黄变换地震信号时频分析与属性提取.地球物理学进展. 2007;22(5):1585-90. (核心)

166.刘定进,印兴耀.共炮检距道集波动方程保幅叠前深度偏移方法.地球物理学进展. 2007;22(2):492-501. (核心)

167.张福明,查明,邵才瑞,印兴耀.天然气的测井勘探与评价技术.地球物理学进展. 2007;22(1):179-85. (核心)

168.周静毅,印兴耀,吴国忱.小波变换与地震奇异性属性.物探化探计算技术. 2006;28(2):117-20. (核心)

169.殷文,印兴耀,吴国忱,梁锴.高精度频率域弹性波方程有限差分方法及波场模拟.地球物理学报. 2006;49(2):561-8. (核心)

170.殷文,印兴耀,张繁昌.基于并行遗传算法的地震属性优化研究.吉林大学学报:地球科学版. 2006;35(5):672-6. (核心)

171.王锐,芮拥军,孙成禹,尚新民.西部复杂探区地震资料叠前偏移技术研究.油气地球物理. 2005;3(3):22-5. (核心)

172.张明振,付瑾平,印兴耀.桩海地区的走滑和挤压构造特征.油气地质与采收率. 2006;13(2):5-7. (核心)

173.王锐,孙成禹,尚新民.地震资料的有限熵反褶积方法.油气地球物理. 2005;3(2):24-6.

174.殷文,印兴耀.基于MPI的时频分布的改进及应用.地球物理学进展. 2005;20(1):165-9. (核心)

175.王保丽,印兴耀,张繁昌.弹性阻抗反演及应用研究.地球物理学进展. 2005;20(1):89-92. (核心)

176.吴国忱,王华忠.波场模拟中的数值频散分析与校正策略.地球物理学进展. 2005;20(1):58-65. (核心)

177.张璐,印兴耀,孙成禹.双相介质的AVO正演模拟.地球物理学进展. 2005;20(2):319-22. (核心)

178.刘书会,张繁昌,印兴耀,张广智.砂砾岩储集层的地震反演方法.石油勘探与开发. 2003;30(3):124-5. (核心)

中国石油大学(北京)文章

[1]Zhao, J. G., Tang, G. Y., Deng, J. X., Tong, X. L. and Wang, S. X. Determination of rock acoustic properties at low frequency: A differential acoustical resonance spectroscopy device and its estimation technique. Geophysical Research Letters, 2013, 40(12): 2975 - 2982. (SCI检索)

[2]Yuan, S. Y. and Wang, S. X. Spectral sparse Bayesian learning reflectivity inversion. Geophysical Prospecting, 2013, 61(4), 735 - 746. (SCI检索)

[3]Yuan, S. Y. and Wang, S. X. Edge-preserving noise reduction based on Bayesian inversion with directional difference constraints. Journal of Geophysics and Engineering, 2013, 10(2):doi:10.1088/1742-2132/10/2/025001. (SCI检索)

[4]Yuan, S. Y. and Wang, S. X. Full waveform inversion using non-smooth data fidelity and non-smooth regularization. Canadian Journal of Exploration Geophysics, 2013, 38(1): 4 - 11.

[5]Dong, C. H., Wang, S. X. and Zhao, J. G. et al. Numerical experiment and analysis of the differential acoustic resonance spectroscopy for elastic property measurements. Journal of Geophysics and Engineering, 2013, 10(5): doi:10.1088/1742-2132/10/5/054002. (SCI检索)

[6]Chen, H. M., Zhou, H., Lin, H., and Wang, S. X. Application of perfectly matched layer for scalar arbitrarily wide-angle wave equations. Geophysics, 2013, 78(1): T29-T39. (SCI检索)

[7]Deng, J. X., Wang, S. X., Tang, G. Y. et al.The influence of mesoscopic flow on the P-wave attenuation and dispersion in a porous media permeated by aligned fractures. Studia Geophysica et Geodaetica, 2013, 57(3): 482-506. (SCI检索)

[8]Wang, S. X., Zhao, J. G. and Li, Z. H., et al.Differential Acoustic Resonance Spectroscopy for the acoustic measurement of small and irregular samples in the low frequency range. Journal of Geophysical Research, 2012, 117(13): B06203. (SCI检索,被引用2)

[9]Yuan, S. Y., Wang, S. X. and Li, G. F. Random noise reduction using Bayesian inversion. Journal of Geophysics and Engineering, 2012, 9(1): 60-68. (SCI检索,被引用5)

[10]Deng, J. X., Qu, S. L., and Wang, S. X. et al.P-wave attenuation and dispersion in a porous medium permeated by aligned fracturesa new poroelastic approach. Journal of Geophysics and Engineering, 2012, 9(2):doi:10.1088/1742-2132/9/2/115. (SCI检索,被引用1)

[11]Guo, R. and Wang, S. X.A spectral method for reflectivity estimation.Journal of Geophysics and Engineering, 2012, 9(6): 681-690. (SCI检索)

[12]Shi, R. Q., Wang, S. X. and Zhao, J. G. An unsplit complex-frequency-shifted PML based on matched Z-transform for FDTD modelling of seismic wave equations. Journal of Geophysics and Engineering, 2012, 9(2): 218-229. (SCI检索)

[13]Yu, Y. C., Wang, S. X. and Yuan, S. Y. Phase spectrum estimation of the seismic wavelet based on a criterion function. Petroleum Science, 2012, 9(2): 170-181. (SCI检索)

[14]Chen, S. Q., Li, X. Y. and Wang, S. X. The analysis of frequency-dependent characteristics for fluid detection: a physical model experiment. Applied Geophysics, 2012, 9(2): 195-206. (SCI检索)

[15]Guo, H. W., Wang, S. X. and Guo, N. C., et al.Wave equation simulation by finite-element method with perfectly matched layer. Advanced Materials Research, 2012, 96-100.

[16]郭乃川,王尚旭,董春晖等.地震勘探中小尺度非均匀性的描述及长波长理论研究.地球物理学报. 2012, 55(7): 2385-2401. (SCI检索)

[17]邓继新,王尚旭,杜伟.介观尺度孔隙流体流动作用对纵波传播特征的影响研究——以周期性层状孔隙介质为例.地球物理学报, 2012, 55(8): 2716-2727. (SCI检索)

[18]Yuan, S. Y. and Wang, S. X. Influence of inaccurate wavelet phase estimation on seismic inversion. Applied Geophysics, 2011, 8(1): 48-59. (SCI检索,被引用2)

[19]Yuan, S. Y. and Wang, S. X. A local f-x Cadzow method for noise reduction of seismic data obtained in complex formations. Petroleum Science, 2011, 8(3): 269-277. (SCI检索,被引用2)

[20]Yu, Y. C., Wang, S. X. and Yuan, S. Y., et al.Phase estimation in bispectral domain based on conformal mapping and applications in seismic wavelet estimation. Applied Geophysics, 2011, 8(1): 36-47. (SCI检索,被引用2)

[21]Lin, C. R., and Wang, S. X.Application of the method of extracting local exponential fitting abnormity to Puguang gas field. Chinese J. Geophys. (in Chinese), 2011, 54(1): 218-226. (SCI检索,被引用2)

[22]Tillotson, P., Chapman, M., Best, A. I., Sothcott, J., McCann, C., Wang, S. X. , and Li, X. Y. Observations of fluid-dependent shear-wave splitting in synthetic porous rocks with aligned penny-shaped fractures. Geophysical Prospecting, 2011, 59(1): 111-119. (SCI检索,被引用4)

[23]邓继新,韩德华,王尚旭.应力松弛对颗粒物质弹性性质的影响及等效介质模型校正研究.地球物理学报, 2011, 54(4): 1079-1089. (SCI检索,被引用1)

[24]Wang, S. X., Li, X. Y. and Di, B. R., et al.Reservoir fluid substitution effects on seismic profile interpretation: A physical modeling experiment. Geophysical Research Letters, 2010, 37(10): L10306. (SCI检索)

[25]邓继新,王尚旭,韩德华.未固结砂岩地震弹性性质的岩石物理模型表征研究.石油地球物理勘探, 2010, 45(2): 248-253.

[26]Deng, J. X., Wang, S. X. andHan, D. H.The velocity and attenuation anisotropy of shale at ultrasonic frequency. Journal of Geophysics and Engineering, 2009, 6(3): 269-278.(SCI检索,被引用4)

[27]Yuan, S. Y., Wang, S. X. and Tian, N. Swarm intelligence optimization and its application in geophysical data inversion. Applied Geophysics, 2009, 6(2): 166-174. (SCI检索,被引用10)

[28]Chen, S. Q., Wang, S. X. and Zhang, Y. G.Reservoir prediction using pre-stack inverted elastic parameters. Applied Geophysics, 2009, 6(4): 349-358. (SCI检索,被引用2)

[29]林昌荣,王尚旭,马在田,.地震数据体结构特征时空关系与油气预测.石油勘探与开发. 2009, 36(2): 208-215.

[30]邓继新,王尚旭.含气储层饱和度反演的岩石物理基础及其实现.石油天然气学报, 2009,31(1).

[31]杜婧,王尚旭,刘国昌.基于局部斜率属性的VSP波场分离研究.地球物理学报, 2009, 52(7): 1867-1872. (SCI检索,被引用4)

[32]邓继新,王尚旭.储层砂岩纵波衰减的实验结果分析.石油物探, 2008, 47(4): 346-351.

[33]薛东川,王尚旭.波动方程有限元叠前逆时偏移.石油地球物理勘探, 2008, 43(1): 17-21.

[34]林昌荣,王尚旭.应用地震数据体结构特征法预测孔缝洞型油气储层.石油地球物理勘探, 2008, 43(4): 415-421.

[35]邓继新,韩德华,王尚旭.基于正演模型的储层谱分解响应特征分析.石油学报,2008,29(4):539-543.

[36]薛东川,王尚旭.利用组合质量矩阵压制数值频散.石油地球物理勘探, 2008, 43(3): 318-320.

[37]Wang, S. X., Li, X. Y. and Qian, Z. P, et al.Physical modelling studies of 3-D P-wave seismic for fracture detection. Geophysical Journal International, 2007, 168(2): 745-756. (SCI检索,被引用8)

[38]Wang, S. X. and Li, X. Y. Layer stripping of azimuthal anisotropy from P-wave reflection moveout in orthogonal survey lines. Journal of Geophysics and Engineering, 2006, 3(1): 1-11. (SCI检索,被引用15)

[39]Mu, L., Arihara, N. and Wang, S. X., et al. Abnormal transmission attenuation and its impact on seismic-fracture predictionA physical modeling study. Geophysics, 2006, 71(1): D15-D22. (SCI检索,被引用4)

[40]Lin, C. R., Wang, S. X. and Zhang, Y. Predicting the distribution of reservoirs by applying the method of seismic data structure characteristics: Example from the eighth zone in Tahe Oilfield. Applied Geophysics, 2006, 3(4): 234-242.

[41]尹尚先,王尚旭.不同尺度下岩层渗透性与地应力的关系及机理.中国科学D辑.地球科学, 2006, 36 (5): 472-480. (SCI检索)

[42]陈双全,王尚旭,魏建新.地震物理模型AVO分析中的开角补偿方法.石油地球物理勘探, 2006, 41(2): 133-136.

[43]Yao, Y., Sa, L. M. and Wang, S. X. Research on the seismic wave field of karst cavern reservoirs near deep carbonate weathered crusts. Applied Geophysics, 2005, 2(2): 94-102.

[44]邓继新,王尚旭,史謌.模拟储层条件下部分饱和砂岩速度实验结果及其理论解释.石油地球物理勘探, 2005, 40(5): 530-534.

[45]陈双全,王尚旭,季敏.基于信号保真的地震数据插值.石油地球物理勘探, 2005, 40(05): 43-45.

[46]邓继新,王尚旭,俞军.不同压力条件下部分饱和砂岩速度实验结果及理论解释.石油地球物理勘探, 2005, 40(05): 58-62.

[47]Wang, S. X. and Lin, C. R. The analysis of seismic data structure and oil and gas prediction. Applied Geophysics, 2004, 1(2): 75-82.

[48]尹尚先,王尚旭,武强.陷落柱突水模式及理论判据.岩石力学与工程学报, 2004, 06: 964-968.

[49]宋炜,王守东,王尚旭.井间地震资料克希霍夫积分法叠前深度偏移.石油物探, 2004, 06: 523-527.

[50]尹尚先,王尚旭.弹性模量、波速与应力的关系及其应用.岩土力学, 2003, S2: 597-601.