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Publications as the first author /corresponding author (*)
Yang, Z.-L., L. Zhao, Y. He, andB. Wang* (2020), Perspectives for Tibetan Plateau data assimilation,National Science Review,7(3), 495-499, doi:10.1093/nsr/nwaa014.
He, Y.,B. Wang*, W. Huang, S. Xu, Y. Wang, L. Liu, L. Li, J. Liu, Y. Yu, Y. Lin, X. Huang, and Y. Peng (2020a), A new DRP-4DVar-based coupled data assimilation system for decadal predictions using a fast online localization technique,Climate Dynamics,54(7-8), 3541-3559, doi:10.1007/s00382-020-05190-w.
He, Y.,B. Wang*, L. Liu, W. Huang, S. Xu, J. Liu, Y. Wang, L. Li, X. Huang, Y. Peng, Y. Lin, and Y. Yu (2020b), A DRP-4DVar-Based Coupled Data Assimilation System With a Simplified Off-Line Localization Technique for Decadal Predictions,Journal of Advances in Modeling Earth Systems,12(4), doi:10.1029/2019MS001768.
He, Y., M. Liu, andB. Wang* (2020c), Review on the study of decadal prediction and coupled data assimilation,Chinese Journal of Geophysics-Chinese Edition,63(1), 1-18, doi:10.6038/cjg2020M0324.
Li, L., Y. Yu, Y. Tang, P. Lin, J. Xie, M.Song, L. Dong, T. Zhou, L. Liu, L. Wang, Y. Pu, X. Chen, L. Chen, Z. Xie, H. Liu, L. Zhang, X. Huang, T. Feng, W. Zheng, K. Xia, H. Liu, J. Liu, Y. Wang, L. Wang, B. Jia, F. Xie,B. Wang*, S. Zhao, Z. Yu, B. Zhao, and J. Wei (2020b). The flexible global ocean-atmosphere-and system model grid-point version 3 (FGOALS-g3): description and evaluation.Journal of Advances in Modeling Earth Systems, 12, e2019MS002012. DOI:10.1029/2019MS002012
Li Qiuhua;Wang Bin*; Yu Chaoqing; Deng Haifeng; Liu Li; Huang Wenyu (2019), Key Factors Affecting Environmental Protection Values in China,Sustainability, 11(2):304.
Wang, Bin; Liu, Juanjuan; Liu, Li; Xu, Shiming; Huang, Wenyu (2018),An approach to localization for ensemble-based data assimilation, Plos One, 13(1), 10.1371/journal.pone.0191088
Li, Qiuhua;Wang, Bin*; Deng, Haifeng; Yu, Chaoqing (2018),A quantitative analysis of global environmental protection values based on the world values survey data from 1994 to 2014, Environmental Monitoring and Assessment, 190(10), 10.1007/s10661-018-6949-z.
He, Y.,B. Wang* et al. (2017), Reduction of initial shock in decadal predictions using a new initialization strategy, Geophys. Res. Lett., 44, doi:10.1002/2017GL074028.
Zhang, F.-B.,B. Wang*and L.-J. Li (2017): New approach to incorporating the impacts of non-hydrostatic perturbations in atmospheric models, Atmospheric and Oceanic Science Letters, 10 (5): 379-384
Dong, F., Y.-C. Li, andB. Wang* (2016), Global Air–Sea CO2 Flux in 22 CMIP5 Models: Multiyear Mean and Interannual Variability.J. Clim., 29(7): 2407-2431;
Huang, W. Y.,B. Wang*, Y. Q. Yu, and L. J. Li (2014), Improvements in LICOM2, Part I: vertical mixing,Journal of Atmospheric and Oceanic Technology, 31(2), 531-544;
Huang, W. Y.,B. Wang*, L. J. Li, and Y. Q. Yu (2014), Improvements in LICOM2, Part II: Arctic circulation,Journal of Atmospheric and Oceanic Technology, 31(1) (2014), 233-245;
Huang, W. Y.,B. Wang*, L. J. Li, et al (2014), Variability of Atlantic Meridional Overturning Circulation in FGOALS-g2,Adv. Atmos. Sci.,31(1) (2014), 95–109;
Xia, K.,B. Wang*, L. J. Li, S. Shen, W. Y. Huang, S. M. Xu, L. Dong, and L. Liu (2014), Evaluation of snow depth and snow cover fraction simulated by two versions of the Flexible Global Ocean–Atmosphere–Land System model,Adv. Atmos. Sci., 31(2), 407–420;
Liao, J.,B. Wang* and Q. X. Li (2014), A new method for quality control of Chinese rawinsonde wind observations,Advances in Atmospheric Sciences, 31(6), 1293-1304
Wang, B, M. M. Liu, Y. Q. Yu et al (2013), Preliminary Evaluations of FGOALS-g2 for Decadal Predictions,Adv. Atmos. Sci., 30(3), 674-683;
Li, L. J., P. F. Lin, Y. Q. Yu,B. Wang* et al (2013), The Flexible Global Ocean-Atmosphere-Land System Model version g2,Adv. Atmos. Sci., 30 (3), 543-560;
Xu, S. M., M. R. Song, J. P. Liu,B. Wang*, et al (2013), Simulation of Sea Ice in FGOALS-g2 – Climatology and Late 20th Century Changes,Adv. Atmos. Sci., 30 (3), 658-673;
Zhao, Y.,B. Wang*, and J.-J. Liu, A DRP-4DVar Data Assimilation Scheme for Typhoon Initialization Using Sea Level Pressure Data,Monthly Weather Review, 140(4) (2012), 1191-1203;
Xie, X.,B. Wang*, L.-J. Li, and L. Dong, MJO simulations by GAMIL1.0 and GAMIL2.0,Atmos. Oceanic Sci. Lett., 5 (2012), 49–54;
成巍,王斌*,徐幼平, 2012,基于局地和非局地观测算子的GPS掩星资料后向映射四维变分同化研究.中国科学-数学, 42(5) (2012), 377-387;
Wang, B, W. Cheng, Y.-P. Xu, R. Cheng, Y. Pu and B. Zhang, A four-dimensional variational data assimilation approach with analysis at the end of assimilation window. Part I: Methodology and preliminary tests,Journal of the Meteorological Society of Japan, 89 (6) (2011), 611–623;
Liu, J.-J.,B. Wang*and Q.-N. Xiao, An evaluation study of DRP-4DVar approach with Lorenz-96 model.Tellus A, 63A (2) (2011), 256–262;
Zhao, J.,B. Wang*, and J. J. Liu, Impact of analysis-time tuning on the performance of the DRP-4DVar approach.Adv. Atmos. Sci., 28(1) (2011), 207–216.
Liu, J.-J.,B. Wang*,Rainfall Assimilation Using a New Four- Dimensional Variational Method: A Single-Point Observation Experiment,Adv. Atmos. Sci., 28 (4) (2011), 735-742;
Liu, H.-B., andB. Wang*,Sensitivity of regional climate simulations of the summer 1998 extreme rainfall to convective parameterization schemes,Meteor. Atmos. Phys., 114 (2011), 1-15;
Li, Y.-Y.,B. Wang*, and D.-H. Wang,Characteristics of a terrain- following sigma coordinate,Atmos. Oceanic Sci. Lett., 4 (3) (2011), 157-161;
Lu, B.,B. Wang*, and Y. Zhao,Numerical simulation of a landfall typhoon using a bogus data assimilation scheme,Atmos. Oceanic Sci. Lett., 4 (4) (2011), 242-246;
Wang, S.-D., J.-J. Liu, andB. Wang*, 2011,A new typhoon bogus data assimilation and its sampling method: A case study,Atmos. Oceanic Sci. Lett., 4(5) (2011), 276–280;
Wang, B.and X.-W. Tan, Conditional Nonlinear Optimal Perturbations: Adjoint-Free Calculation Method and Preliminary Test,Monthly Weather Review, 138 (2010), 1043-1049;
Wang, B.,J.-J. Liu, S.-D. Wang et al, 2010, An Economical Approach to Four-dimensional Variational Data Assimilation,Advances in Atmospheric Sciences, 27(4) (2010), 715-727;
Liu, J.-J.,B. Wang*and S.-D. Wang, The structure of background-error covariances in a four-dimensional variational data assimilation system: single-point experiment.Adv. Atmos. Sci., 27(6) (2010), 1303–1310.
Li,L.-J. andB. Wang*,Influences of two convective schemes on the radiative energy budget in GAMIL1.0.Acta Meteor. Sinica, 24(3) (2010), 318-327.
李立娟,王斌,两种对流参数化方案对辐射能量收支的影响研究,气象学报,67(6) (2009), 1080-1088
Wang, B.,X. Xie and L.-J. Li, A Review on Aspects of Climate Simulation Assessment,Advances in Atmospheric Sciences, 26(4) (2009), 736–747;
Wang, B.,T.-J. Zhou, Y.-Q. Yu et al, A View on Earth System Model Development,Acta Meteorologica Sinica, 23(1) (2009), 1-17;
王斌,周天军,俞永强,Bin Wang,地球系统模式发展展望,气象学报,66(6)(2008),857-869;
Wang, B.and X.-W. Tan, A Fast Algorithm for Solving CNOP and Associated Target Observation Tests,Acta Meteorologica Sinica, 23(4)(2009), 387-402;
王斌,谭晓伟,一种求解条件非线性最优扰动的快速算法及其在台风目标观测中的初步检验,气象学报,67(2)(2009),175-188;
王斌,一种典型的高性能计算:地球系统模拟,物理,38(8)(2009),569-574;
Wang, B.,2008, An Explicit Multi-conservation Finite-difference Scheme for Shallow-water-wave Equation,Journal of Computational Mathematics, 26 (3) (2008), 404–409;
Liu, J. andB. Wang*, A New Global Four-Dimensional Variational Ocean Data Assimilation System and its Application,Adv. Atmos. Sci., 25(4) (2008),680-691
Li,L.-J. andB. Wang*, Yuqing Wang and Hui Wan, Improvements in Climate Simulation with Modifications to the Tiedtke Convective Parameterization in the Grid-Point Atmospheric Model of IAP LASG (GAMIL),Adv. Atmos. Sci., 24(2) (2007), 323-335
Wang, B.and Y. Zhao, A New Approach to Data Assimilation,Acta Meteorologic Sinica, 20(3) (2006), 275-282;
王斌,赵颖,一种新的资料同化方法,气象学报,65(5) (2005),694-701;
Wang, B.,H. Wan, Z.-Z. Ji, X. Zhang, R.-C. Yu, Y.-Q. Yu, H.-T. Liu, Design of a new dynamical core for global atmospheric models based on some efficient numerical methods,Science in China, Series A, 47(Supp) (2004), 4-21;
Wang, B.and Z.-Z. Ji, Construction and numerical tests of the multi-conservation difference scheme,Chinese Science Bulletin, 48 (10) (2003), 1016-1020;
王斌,季仲贞,多守恒差分格式的构造及其数值试验,科学通报,48(7)(2003),743-746;
王斌,季仲贞,肖庆农,大气动力学方程的Hamilton算法,计算物理,18(4) (2001), 289-297;
Wang, B.,X.-L. Zou and J. Zhu, Data Assimilation and Its Applications,Proc. Natl. Acad. Sci. USA, 97 (21) (2000), 11143-11144 (目前影响因子9.432);
Wang, B.and Z.-Z. Ji, An Economical Consistent Dissipation Operator and Its Applications to the Improvement of AGCM,Advances in Atmospheric Sciences, 14(1) (1997), 53-58;
Wang, B.,Z.-Z. Ji and Q.-C. Zeng, Symplectic Operator Method and Its Test,Progress in Natural Science, 7(3) (1997), 345-353;
王斌,季仲贞,曾庆存,辛算子法及检验,自然科学进展,7 (6) (1997),668 – 675;
Wang, B.,Z.-Z. Ji and Q.-C. Zeng, A class of new explicit Runge-Kutta scheme,Progress in Natural Science, 6(2) (1996), 195-205;
王斌,季仲贞,曾庆存,一类新的显式Runge-Kutta法,自然科学进展,6(3) (1996),317-325;
Wang, B.,Q.-C. Zeng and Z.-Z. Ji, Square Conservation System and Hamiltonian System,Science in China, Series A, 38(10) (1995), 1211-1219;
王斌,曾庆存,季仲贞,平方守恒系统与Hamilton系统,中国科学A,25(7) (1995),765-770;
Wang, B.and Z.-Z. Ji, A Class of Explicit Forward Time-Difference Square Conservative Schemes,Acta Mechanica Sinica, 11(1) (1995), 8-14;
Wang, B.Z.-Z. Ji and Q.-C. Zeng, 1995, A PRELIMINARY STUDY ON THE THEORY OF SPLITTING AGLORITHM,Chinese J. Num. Math. & Appl., 17(3) (1995), 12-25;
王斌,季仲贞,曾庆存,分裂算法理论的初步探讨,计算数学,17(2) (1995),115-126;
王斌,关于显式平方守恒格式精度的证明,科学通报,40(11) (1995),1010-1012;
Wang, B.and Z.-Z. Ji, Splitting Method of the Linear Stage and the Nonlinear Stage,Progress in Natural Science, 5(5) (1995), 558-564;
王斌,季仲贞,一类快速经济算法:线性与非线性的分解法,自然科学进展,4(4) (1994),417-422;
王斌,季仲贞,变步长显式完全平方守恒差分格式,气象学报,53(3) (1995),299-305;
Wang, B.and Z.-Z. Ji,An Explicit Complete Square Conservative Difference Scheme with Adjustable Time Step Intervals,Acta Meteorologica Sinica, 8(4) (1994), 403-409;
王斌,季仲贞,曾庆存,一种新的区域分离法,力学学报,26(5) (1994),530-535;
王斌,季仲贞,李荣凤,显式完全平方守恒差分格式在近岸海流数值模拟中的应用,热带海洋学报,13(3) (1994),1-7;
Wang, B.and Z.-Z. Ji, Harmonious Dissipative Operators and the Completely Square Conservative Difference Scheme in an Explicit Way,Science in China, Ser. B, 37(4) (1994), 462-471;
王斌,季仲贞,协调耗散算子与显式完全平方守恒差分格式,中国科学B,23(6) (1993),665-672;
Wang, B.and Z.-Z. Ji, An Improved Splitting Method,Advances in Atmospheric Sciences, 10(4) (1993), 447-452;
Wang, B.,Z.-Z. Ji and Q.-C. Zeng, A time-saving Explicit Scheme for Numerical Integrations,Chinese Science Bulletin, 38(3) (1993), 230-234;
王斌,季仲贞,曾庆存,一种省时的显式数值积分方案,科学通报,37(24) (1992),2247-2250;
Wang, B.and Z.-Z. Ji, The construction and preliminary test of the explicit complete square conservative difference schemes,Chinese Science Bulletin, 35(20) (1990),1724-1728;
王斌,季仲贞,显式完全平方守恒差分格式的构造及其初步检验,科学通报,35(10) (1990),766-768;
王斌,用待定系数法构造平方守恒型差分格式,中国科学院研究生院学报,5(2) (1988),84-91;
Publications as the second author
Li, J., B. Wang, and L. Dong (2020), Analysis of and Solution to the Polar Numerical Noise Within the Shallow-Water Model on the Latitude-Longitude Grid, Journal of Advances in Modeling Earth Systems, 12(8), doi:10.1029/2020ms002047.
Xia, K., and B. Wang (2020), Observational variations in the seasonal freezing depth across China during 1965-2013, Climate Research, 80(2), 121-132, doi:10.3354/cr01601.
Shi, Y.-Y., B. Wang and W.-Y. Huang* (2017), A ‘self-adjustment’ mechanism for mixed-layer heat budget in the equatorial Atlantic cold tongue, Atmos. Sci. Let., 18(2): 82-87
Huang, W.-Y.*, B. Wang, and J.-S. Wright, A potential vorticity-based index for the East Asian winter monsoon. J. Geophys. Res. Atmos., 121 (16) (2016), 9382-9399.
Huang, W.-Y.*, B. Wang, J.-S. Wright, R.-Y. Chen, On the Non-Stationary Relationship between the Siberian High and Arctic Oscillation. PLoS ONE, 11(6) (2016): e0158122.
Dong, L., B. Wang, L. Liu and W.-Y. Huang, Lagrangian advection scheme with shape matrix (LASM) v0.2: interparcel mixing, physics–dynamics coupling and 3-D extension, Geosci. Model Dev., 8 (8) (2016): 2675–2686
Xu, S.-M., B. Wang, and J.-P. Liu, On the use of Schwarz–Christoffel conformal mappings to the grid generation for global ocean models, Geosci. Model Dev., 8 (10) (2015), 3471–3485
Li, L.-J, B. Wang and T.-J, Zhou, Direct effect of lower-tropospheric diabatic heating on surface wind over the equatorial Pacific, Atmos. Sci. Let., 16 (2) (2015), 96-102.
夏坤, 王斌. 2015. 欧亚大陆积雪覆盖率的模拟评估及未来情景预估,气候与环境研究, 20 (1): 41−52
黄文誉, 王斌, 李立娟等, 耦合模式 FGOALS-g2 中大西洋经向翻转流对 3 个典型浓度路径的响应, 气候与环境研究, 19 (6) (2014), 670−682;
Yin, X., B. Wang, J. J. Liu and X. W. Tan, Evaluation of conditional non-linear optimal perturbation obtained by an ensemble-based approach using the Lorenz-63 model, Tellus A, 66 (2014), 22773
Li, L.-J., B. Wang, and G.- J. Zhang, The Role of Nonconvective Condensation Processes in Response of Surface Shortwave Cloud Radiative Forcing to El Niño Warming, J. Climate, 27 (17) (2014), 6721–6736;
Y. Li, B. Wang, D. Wang, J. Li, and L. Dong, An orthogonal terrain-following coordinate and its preliminary tests using 2-D idealized advection experiments, Geosci. Model Dev., 7 (4) (2104), 1767–1778;
Dong, L., B. Wang, and L. Liu, A Lagrangian advection scheme with shape matrix (LASM) for solving advection problems, Geosci. Model Dev., 7 (6) (2014), 2951–2968;
Dong, L., B. Wang, 2013, Trajectory-Tracking Scheme in Lagrangian Form for Solving Linear Advection Problems: Interface Spatial Discretization, Mon. Wea. Rev., 141 (2013), 324–339;
Li, L. J, B. Wang, L. Dong et al, Evaluation of Grid-point Atmospheric Model of IAP LASG version 2 (GAMIL2), Adv. Atmos. Sci., 30(3) (2013), 855-867;
Shi, X. J, B. Wang, X. H. Liu, and M. H. Wang, Two-moment bulk stratiform cloud microphysics in the Grid-point Atmospheric Model of IAP LASG (GAMIL). Adv. Atmos. Sci., 30(3) (2013), 868-883;
Wang Y. F., B. Wang, J. F. Fei, et al, The Effects of Assimilating Satellite Brightness Temperature and Bogus Data on the Simulation of Typhoon Kalmaegi (2008), Acta Meteor. Sinica, 27(3) (2013), 415-434;
Gong, J., B. Wang, and Z.-Z. Ji, Generalized square conservative multistep finite difference scheme incorporating historical observations, Atmos. Oceanic Scie. Lett., 6(4) (2013), 223-226;
Gong, J., B. Wang, and Z.-Z. Ji, Three-step difference scheme for solving nonlinear time-evolution partial differential equations, Atmos. Oceanic Scie. Lett., 6(6) (2013), 423-427;
Dong, L and B. Wang, Trajectory-Tracking Scheme in Lagrangian Form for Solving Linear Advection Problems: Preliminary Tests. Monthly Weather Review, 140 (2) (2012), 650-663;
Li, J., B. Wang, and D.-H. Wang, The characteristics of Mesoscale Convective Systems (MCSs) over East Asia in warm seasons. Atmos. Oceanic Sci. Lett., 5 (2012), 102–107;
赵娟, 王斌, 刘娟娟, 预分析初始扰动样本对降维投影四维变分同化性能的影响. 气象学报, 70 (3) (2012), 549-561;
Liu, J.-J., and B. Wang, Strategies to overcome filter divergence in the DRP-4-DVar approach, Atmos. Oceanic Sci. Lett., 4 (3) (2011), 136–138;
谭晓伟, 王斌, 王栋梁,基于条件非线性最优扰动的目标观测中瞄准区不同引导性变量的影响试验研究, 气象学报, 69(3) (2011), 400-411; Tan,X.-W., B. Wang, and D.-L. Wang, Impact of different guidances on sensitive areas of targeting observations based on the CNOP method. Acta Meteor. Sinica, 24(1) (2010), 17-30;
Shi,X.-J.,B. Wang et al, Aerosol Indirect Effects on Warm Clouds in the Grid-Point Atmospheric Model of IAP LASG (GAMIL), Atmos. Ocean. Sci. Lett., 3(4) (2010), 237-241
史湘军,王斌,季仲贞,解决格点大气环流模式极点问题的一种方法,中国科学院研究生院学报,27(1)(2010), 127-132
梁旭东,王斌,基于模式约束三维变分技术的连续循环同化试验研究,气象学报,68 (2) (2010),153-161
赵明,王斌,成巍,赵颖,一种基于历史样本投影的三维变分同化方法,气候与环境研究, 15(2) (2010), 199-209
Tan, X.-W. and B. Wang, Impacts of initial perturbations on 24-h predictions of sea-level pressure near Typhoon Matsa, Atmos. Oceanic Sci. Lett., 2(5) (2009), 284−289.
张海玲,王斌,毛嘉富,陆面气温资料的一种推广三维变分同化方法及其在简化情形的检验. 气候与环境研究,14(3)(2009),273-283
Mao, J.-F., B. Wang and Y.-J. Dai, Sensitivity of the Carbon Storage of Potential Vegetation to Historical Climate Variability and CO2 in Continental China. Adv. Atmos. Sci., 26(1) (2009), 87-100
Zhao, Y. and B. Wang, Numerical Experiments for Typhoon Dan Incorporating AMSU-A Retrieved Data with 3DVM. Adv. Atmos. Sci., 25 (4) (2008), 692-703
Wang, Y.-S., B. Wang and M.-Z. Qin, Local structure-preserving algorithms for partial differential equations. Science in China Series A, 51 (11) (2008), 2115-2136; 王雨顺,王斌,秦孟兆, 偏微分方程的局部保结构算法. 中国科学A,38(4)(2008),377-397
毛嘉富, 王斌, 戴永久, MORALES Pablo, 一个动态植被模型在欧洲森林碳水循环模拟中的适应性评估研究. 大气科学, 32(6) (2008), 1379-1391
刘娟, 王斌, 俞永强, 刘海龙, OPEX/Poseidon高度计资料在全球海洋环流模式中的同化及分析. 气候与环境研究, 13(6) (2008), 697-707
普业, 王斌, 徐幼平, 程锐, 成巍: 基于MPI技术的AREM模式并行开发及试验.气候与环境研究, 13(5)(2008), 675-680
梁旭东,王斌,多普勒雷达积分VAP反演技术. 气象学报, 65(2) (2007), 261-271
Li, L.-J., B. Wang and T.-J. Zhou, Contributions of natural and anthropogenic forcings to the summer cooling over eastern China: An AGCM study. Geophy. Res. Lett, 34(L18807) (2007) , doi:10.1029/2007GL030541
Li, L.-J., B. Wang and T.-J. Zhou, Impacts of external forcing agents on the 20th century global warming. Chinese Science Bulletin, 52(22) (2007), 3148-3154;李立娟,王斌,周天军,外强迫因子对二十世纪全球变暖的综合影响.科学通报,52(15)(2007),1820-1825
Yang, J.-L., B. Wang, Y.-F. Guo, H. Wan and Z.-Z. Ji, Comparison Between GAMIL, and CAM2 on Interannual Variability Simulation. Adv. Atmos. Sci., 24(1) (2007), 82-88
Mao, J.-F., B. Wang, and Y,-J. Dai, F. I. WOODWARD, P. J. HANSON, and M. R. LOMAS, Improvements of a Dynamic Global Vegetation Model and Simulations of Carbon and Water at an Upland-Oak Forest. Adv. Atmos. Sci., 24(2) (2007), 311-322
Liang, X.-D., B. Wang and J. CL Chan,Tropic cyclonforecasting with model-Constrained 3Dvar, Part I: Description. Q. J. R. Meteorol. Soc., 133(622) ( 2007), 147–153
Liang, X.-D., B. Wang and J. CL Chan, Tropic cyclone forecasting with model-Constrained 3DVar,Part Ⅱ: Improved cyclone track forecasting using AMSU-A, QuikSCAT and cloud-drift wind data. Q. J. R. Meteorol. Soc., 133(622) ( 2007),155–165
Zhao, Y., B. Wang, and Y.-Q. Wang, Initialization and simulation of a landfalling typhoon using a variational bogus mapped data assimilation (BMDA). Meteorol. Atmos. Phys., 98( 2007), 269–282
Wang, Y.-S., B. Wang, and X. Chen, Multisymplectic Euler Box Scheme for the KdV equation. Chin. Phys. Lett.,24(2)( 2007), 312-314
刘茜霞,王斌,张美根, Mozart-2对欧洲地区对流层臭氧的模拟研究.中国科学院研究生院学报,23(2)(2006),221-230
毛嘉富,王斌,戴永久,陆地生态系统模型及其与气候模式耦合的回顾. 气候与环境研究,11(6)(2006),763-771
毛嘉富,王斌,单利,李银鹏,新一代格点大气环流模式与陆面生态模式AVIM的耦合研究. 大气科学,29(6)(2006),897-910
Zhao,Y., B. Wang, Z.-Z. Ji, X.-D. Liang, G. Deng and X. Zhang, Improved track forecasting of a typhoon reaching landfall from four-dimensional variational data assimilation of AMSU-A retrieved data. J. Geophy. Res., 110 (D14101) (2005),doi: 10.1029/ 2004JD005267
Wang, Y.-S. and B. Wang, High-order multi-symplectic schemes for the nonlinear Klein–Gordon equation. Applied Mathematics and Computation, 166 (3) (2005), 608–632
Wang, Y.-S., B. Wang, and H.-W. Yang, An Artificial Boundary Condition for the Multisymplectic Preissman Scheme. Journal of the physical Society of Japan, 73(6) (2004), 1457–1463
Wang, Y.-S., B. Wang and M.-Z. Qin, Concatenating construction of the multisymplectic schemes for 2+1-dimensional sine-Gordon equation. Science in China, Ser. A, 47(1) (2004), 18—30;王雨顺,王斌, 2+1维sine-Gordon方程多辛格式的复合构造. 中国科学A,33 (3) (2003),272-281
Wang, Y.-F., B. Wang and et al, Variational Data Assimilation Experiments of Mei-Yu Front Rainstorms in China. Advances in Atmospheric Sciences, 21(4) ( 2004), 587–596
季仲贞,王斌,杨诗芳,有限差分格式与物理守恒性. 地球物理学报, 47 (6)( 2004), 991-996
王雨顺,王斌,季仲贞,孤立波方程的保结构算法. 计算物理,21(5)(2004), 386-400
王雨顺, 王斌, Hamilton方程的变分离散方法. 南京师大学报(自然科学版),27(2)(2004),1-4
张昕, 王斌, 季仲贞, GPS掩星资料变分同化模式的并行计算--在微机机群上的并行性能分析. 数值计算与计算机应用, 25(3)(2004), 225-232
季仲贞,王斌,赵颖,杨诗芳,多守恒性的差分格式的分析和比较. 空气动力学学报,22(3)(2004),265-268
季仲贞,王斌,赵颖,杨宏伟,总能量守恒与辛几何算法. 中国科学院研究生院学报,20(1)(2003),97-102
程强,王斌等,自动微分转换系统及其应用. 数值计算与计算机应用,24(4)(2003),276-284
刘宇迪,王斌,候志明,最优决策法在台风路径集成预报中的运用.热带气象学报,19(2)(2003),219-224
刘宇迪,王斌,陆汉城,林上金,三维网格计算频散性的对比实验.自然科学进展,13(8)(2003),859-865
Wang, Y.-S., B. Wang, and H.-W. Yang, Multisymplectic five-point scheme for the nonlinear wave equation. Chinese Science Bulletin, 48 (Supp.I) (2003), 24-29; 王雨顺,王斌,杨宏伟,非线性波方程的多辛五点格式. 科学通报,48(增刊2)(2003),11-16
Wang,Y.-F. and B. Wang, Effects of 4DVAR with multifold observed data on the typhoon track forecast. Chinese Science Bulletin, 48 (Supp.I) (2003), 93—98; 王云峰,王斌,多种观测资料的四维变分同化对台风路径预报的影响.科学通报,48(增刊2)(2003),82-86
Zhang,X.-Y., B. Wang and Z.-Z. Ji, et al, Initializations and simulation of a Typhoon Using 4-Dimensional Variational Data Assimilation-Research on Typhoon Herb (1996). Advances in Atmospheric Sciences, 20(4) (2003), 612-622
Wang,Y.-F. and B. Wang, The Variational Assimilation Experiment of GPS Bending Angle. Advances in Atmospheric Sciences, 20(3) (2003), 479-486
Wang, Y.-S., B. Wang, Z.-Z. Ji et al, High Order Symplectic Schemes for the Sine-Gordon Equation. Journal of the Physical Society of Japan, 72(11) (2003), 2731-2736
Liu, Y.-D., B. Wang, and Z.-Z. Ji, Research on Atmospheric Motion in Horizontal Discrete Grids. Advances in Atmospheric Sciences, 20 (1) (2003),139-148
Kuang, Z., B. Wang et al, A Rapid Optimization Algorithm for GPS Data Assimilation. Advances in Atmospheric Sciences, .20 (3) (2003),487-441
Zhang, X., B. Wang, Z.-Z. Ji and W.-T. Lin, Three-dimensional variational data assimilation implemented in numerical modeling for Wuhan torrential rain in July 1998. Progress in Natural Science, 12(6) (2002), 445-448;张昕,王斌,季仲贞,林万涛, "98·7"武汉暴雨模拟中的三维变分资料同化研究. 自然科学进展,12(2)(2002),156-160
Yang, H.-W., B. Wang, and Z.-Z. Ji, Application of the Artificial Compression Method to the Simulation of 2-dimensional Frontogenesis. Advances in Atmospheric Sciences, 19(5) (2002), 863-869
Ji, Z.-Z., B. Wang, Y. Zhao and H.-W. Yang, Total Energy Conservation and the Symplectic Algorithm. Advances in Atmospheric Sciences, 19(3) (2002), 459-467
Zhao, Y., B. Wang and Z.-Z. Ji, Symplectic-like difference schemes for generalized Hamiltonian systems. Advances in Atmospheric Sciences, 19(4)(2002), 719-726
程强,王斌,基于最小程序行为分解的模式伴随化. 自然科学进展,12(4)( 2002),,434-437
赵颖,王斌,季仲贞,动力保守系统的一类双属性格式. 中国科学院研究生院学报,19(1)(2002),82-85
刘洪涛,王斌,薛峰,宇如聪, 大气环流模式降水的模拟对水汽方程差分方案的敏感性试验. 气候与环境研究,7(1)( 2002),121-134
Zhang, X., B. Wang and Z.-Z. Ji, Performance of a Parallel Finite Difference Atmospheric General Circulation Model. Advances in Atmospheric Sciences, 18(6) (2001), 1175-1184
Li, S.-Y., B. Wang et al, 2001: The Parallel Computing of GPS Ray-shooting Model. Advances in Atmospheric Sciences, 18(6) ( 2001),1185-1191
Li, S.-Y., B. Wang et al, The time-saving Numerical Method for GPS/MET Observation Operator. Progress in Natural Science, 11(12)( 2001), 924-930;李树勇,王斌,求解GPS/MET观测算子的经济算法. 自然科学进展,11(11)(2001),1186-P1191
李树勇,王斌, GPS“射线打靶”模式高效数值方法的研究及其并行实现. 计算物理,18(6) ( 2001),491-496
Zou,X., B. Wang and Hui Liu et al, Use of GPS/MET Refraction Angles in 3D-Var Analysis. Q. J. R. Meteorol. Soc., 126 (570) (2000), 3013- 3040
季仲贞,王斌, T63L16谱模式水汽初始场的处理和试验. 气候与环境研究,5(2)( 2000),141-144
季仲贞,王斌,曾庆存,地球流体力学数值方法的若干研究,空气动力学学报, 18(4) (2000), 390-394
季仲贞,王斌,曾庆存,大气海洋环境数值模拟中的若干计算问题.气候与环境研究,4(2) (1999),136-151
季仲贞,王斌,曾庆存,计算地球流体力学若干进展. 空气动力学学报,16(1)(1998),108-113
Ji, Z.-Z. and B. Wang, Multispectrum Method and the Computation of Vapor Equation. Advances in Atmospheric Sciences, 14(4)( 1997), 563-568
季仲贞,王斌,保持总能量守恒的“半拉格朗日算法”. 计算物理,13(4)( 1996),403-409
Ji, Z.-Z. and B. Wang, Some splitting methods for equations of geophysical fluid dynamics, Advances in Atmospheric Sciences, , 12(1) (1995), 109-113
季仲贞,王斌,一类高时间差分精度的平方守恒格式的构造及其应用检验,自然科学进展,4(2) (1994), 149-157
Ji, Z.-Z., B. Wang, Z. Liu and Q.-C. Zeng, Some Advances in Computational Geophysical Fluid Dynamics, Progress in Natural Science, 4(6)( 1994), 688-697; 季仲贞,王斌,计算地球流体力学研究的若干进展,自然科学进展,4(6) (1994),677-684
Ji, Z.-Z. and B. Wang , Constructions and Applied Examinations of a kind of Square-conservative Schemes in High Precision in the Time Direction, Advances in Atmospheric Sciences, 10(3)( 1993),315-324
Ji, Z.-Z. and B. Wang, A Further Discussion on the Construction and Application of Difference Scheme of Evolution Equations, Chinese Journal of Atmospheric Sciences, 15(1) (1991): 72-81; 季仲贞,王斌,再论发展方程差分格式的构造和应用,大气科学,15(2) (1991),1-10
Other publications as an coauthor
Ma, J., S. Xu, and B. Wang (2020), CESM coupled simulation dataset with new (Mod_cp) and original (F09) dynamical coupling scheme from atmosphere, ocean and ice, Zenodo, doi:10.5281/zenodo.3741727.
Xu, S., L. Zhou, and B. Wang (2020), Variability scaling and consistency in airborne and satellite altimetry measurements of Arctic sea ice, Cryosphere, 14(2), 751-767, doi:10.5194/tc-14-751-2020.
He, X., W. Huang, Z. Yang, J. Wright, B. Wang, Z. Xie, T. Qiu, W. Dong, H. Lu, X. Li, and J. Liao (2020d), Favorable Circulation Patterns and Moisture Sources for Wintertime Extreme Precipitation Events Over the Balkhash-Junggar Region, Journal of Geophysical Research-Atmospheres, 125(16), doi:10.1029/2019jd032275.
Li, L., L. Dong, J. Xie, Y. Tang, F. Xie, Z. Guo, H. Liu, T. Feng, L. Wang, Y. Pu, W. Sun, K. Xia, L. Liu, Z. Xie, Y. Wang, L. Wang, X. Shi, B. Jia, J. Liu, and B. Wang (2020a), The GAMIL3: Model Description and Evaluation, Journal of Geophysical Research-Atmospheres, 125(15), doi:10.1029/2020JD032574.
Li, S., M. Wang, W. Huang, S. Xu, B. Wang, and Y. Bai (2020c), Using a skillful statistical model to predict September sea ice covering Arctic shipping routes, Acta Oceanologica Sinica, 39(5), 11-25, doi:10.1007/s13131-020-1595-z.
Lin, Y., X. Huang, Y. Liang, Y. Qin, S. Xu, W. Huang1, F. Xu, L. Liu, Y. Wang, Y. Peng, L. Wang, W. Xue, H. Fu, G. Zhang, B. Wang, R. Li, C. Zhang, H. Lu, K. Yang, Y, Luo, Y. Bai, Z. Song, M. Wang1, W. Zhao, F. Zhang, J. Xu, X. Zhao, C. Lu, Y. Chen, Y. Luo, Y. Hu, Q. Tang, D. Chen, G. Yang, and P. Gong (2020), Community Integrated Earth System Model (CIESM): Description and Evaluation. Journal of Advances in Modeling Earth Systems, 12, e2019MS002036. DOI: 10.1029/2019MS002036
Pu, Y., L. Li, H. Liu, L. Dong, and B. Wang (2020a), Preliminary evaluation of MJO simulation in GAMIL3 (Grid-point atmospheric model of IAP LASG), Atmospheric and Oceanic Science Letters, doi:10.1080/16742834.2020.1769451.
Pu, Y., H. Liu, R. Yan, H. Yang, K. Xia, Y. Li, L. Dong, L. Li, H. Wang, Y. Nie, M. Song, J. Xie, S. Zhao, K. Chen, B. Wang, J. Li, L. Zuo (2020b), CAS FGOALS-g3 Model Datasets for the CMIP6 Scenario Model Intercomparison Project (ScenarioMIP), Advances in Atmospheric Sciences, doi:10.1007/s00376-020-2032-0.
Sun, C., L. Liu, R. Li, X. Yu, H. Yu, B. Zhao, G. Wang, J. Liu, F. Qiao, B. Wang (2020) Developing a common, flexible and efficient framework for weakly coupled ensemble data assimilation based on C-Coupler2.0, Geoscientific Model Development Discussions, http://dx.doi.org/10.5194/gmd-2020-75.
Wang, L., X. Shen, J. Liu, and B. Wang (2020), Model Uncertainty Representation for a Convection-Allowing Ensemble Prediction System Based on CNOP-P, Advances in Atmospheric Sciences, 37(8), 817-831, doi:10.1007/s00376-020-9262-z.
Xu, S., J. Ma, L. Zhou, Y. Zhang, B. Wang, and J. Liu (2020), Multi-scale sea ice kinematics modeling dataset with a tripolar grid hierarchy (TS grids) in CESM, Zenodo, doi:10.5281/zenodo.3842281.
Zhou, T., Z. Chen, L. Zou, X. Chen, Y. Yu, B. Wang, Q. Bao, Y. Bao, J. Cao, B. He, S. Hu, L. Li, J. Li, Y. Lin, L. Ma, F. Qiao, X. Rong, Z. Song, Y. Tang, B. Wu, T. Wu, X. Xin, H. Zhang, M. Zhang, (2020), Development of Climate and Earth System Models in China: Past Achievements and New CMIP6 Results, Journal of Meteorological Research, 34(1), 1-19, doi:10.1007/s13351-020-9164-0.
Tang, Yanli; Li, Lijuan; Wang, Bin; Lin, Pengfei; Dong, Wenjie; Xia, Kun, The Collective Contribution of Atmospheric and Oceanic Components to ENSO Asymmetry, Atmosphere, 2019-08, 10(8): 469.
Tang Yanli; Li Lijuan; Wang Bin; Lin Pengfei; Chen Lin; Xie Feng; Dong Wenjie; Xia Kun, The dominant role of the atmospheric component of coupled models in ENSO amplitude simulations, Climate Dynamics, 2019-04, 52(7-8):4833-4847.
Ma, Jialiang; Xu, Shiming; Wang, Bin, Warm bias of sea surface temperature in Eastern boundary current regions-a study of effects of horizontal resolution in CESM, Ocean Dynamics, 2019-08, 69(8): 939-954.
Nie, Yan; Li, Lijuan; Tang, Yanli; Wang, Bin, Impacts of Changes of External Forcings from CMIP5 to CMIP6 on Surface Temperature in FGOALS-g2, SOLA, 2019-10-29, 15: 211-215.
Huang, Wenyu; Yang, Zifan; He, Xinsheng; Lin, Daiyu; Wang, Bin; Wright, Jonathon S; Chen, Ruyan; Ma, Wenqian; Li, Feifei, A possible mechanism for the occurrence of wintertime extreme precipitation events over South China, Climate Dynamics, 2019-02, 52(3-4): 2367-2384.
Lin Daiyu; Huang Wenyu; Yang Zifan; He Xinsheng; Qiu Tianpei; Wang Bin; Wright Jonathon S, Impacts of Wintertime Extratropical Cyclones on Temperature and Precipitation Over Northeastern China During 1979-2016, JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES, 2019-02-16, 124(3):1514-1536.
Yang Zifan; Huang Wenyu; He Xinsheng; Wang Yong; Qiu Tianpei; Wright Jonathon S; Wang Bin, Synoptic Conditions and Moisture Sources for Extreme Snowfall Events Over East China, JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES, 2019-01-27, 124(2):601-623.
Yang, Haoyu; Liu, Li; Zhang, Cheng; Li, Ruizhe; Sun, Chao; Yu, Xinzhu; Yu, Hao; Zhang, Zhiyuan; Wang, Bin, PatCC1: an efficient parallel triangulation algorithm for spherical and planar grids with commonality and parallel consistency, Geoscientific Model Development, 2019-07-26, 12(7): 3311-3328.
Xu Hao; Li Sha; Bai Yuqi; Dong Wenhao; Huang Wenyu; Xu Shiming; Lin Yanluan; Wang Bin; Wu Fanghua; Xin Xiaoge; Zhang Li; Wang Zaizhi; Wu Tongwen, A collaborative analysis framework for distributed gridded environmental data, Environmental Modelling & Software, 2019-01, 111:324-339.
Qiu, T., Huang, W., Wright, J. S.,Lin, Y., Lu, P., He, X., Yang, Z., Dong, W., Lu, H. , and Wang, B., 2019-12-08. Moisture sources for wintertime intense precipitation events over the three snowy subregions of the Tibetan Plateau. Journal of Geophysical Research: Atmospheres, 124, 12708-12725
季涤非; 刘利; 李立娟; 孙超; 于馨竹; 李锐喆; 张诚; 王斌, 模式内部变率引起的1.5℃和2℃升温阈值出现时间模拟的不确定性研究, 气候变化研究进展, 2019, (04): 343-351.
林岩銮; 黄小猛; 梁逸爽; 秦怡; 徐世明; 黄文誉; 徐芳华; 刘利; 王勇; 彭怡然; 王兰宁; 薛巍; 付昊桓; 张广俊; 王斌; 李锐喆; 张诚; 卢麾; 阳坤; 罗勇; 白玉琪; 宋振亚; 王敏琦; 赵文婕; 张峰; 徐敬蘅; 赵曦; 陆春松; 骆亦其; 陈奕兆; 胡勇; 唐强; 陈德训; 杨广文; 宫鹏, 清华大学CIESM模式及其参与CMIP6的方案, 气候变化研究进展, 2019, 15(05): 545-550.
Yang, Zifan; Huang, Wenyu; Wang, Bin; Chen, Ruyan; Wright, Jonathon S.; Ma, Wenqian; 2018, Possible mechanisms for four regimes associated with cold events over East Asia, Climate Dynamics, 51(1-2): 35-56
Zhao, Wenjie; Peng, Yiran; Wang, Bin; Yi, Bingqi; Lin, Yanluan; Li, Jiangnan; 2018, Comparison of three ice cloud optical schemes in climate simulations with community atmospheric model version 5, Atmospheric Research, 204: 37-53
Zhao, Wenjie; Peng, Yiran; Wang, Bin; Li, Jiangnan; 2018, Cloud Longwave Scattering Effect and Its Impact on Climate Simulation, Atmosphere, 9(4), 10.3390/atmos9040153
Shi, Yanyan; Huang, Wenyu; Wang, Bin; Yang, Zifan; He, Xinsheng; Qiu, Tianpei; 2018, Origin of Warm SST Bias over the Atlantic Cold Tongue in the Coupled Climate Model FGOALS-g2, Atmosphere, 9(7), 10.3390/atmos9070275
Xie, Feng; Li, Li-Juan; Wang, Bin; Xue, Wei; 2018, Impacts of uncertain cloud-related parameters on Pacific Walker circulation simulation in GAMIL2, AOSL, 11(1): 7-14
Liu, Li; Zhang, Cheng; Li, Ruizhe; Wang, Bin; Yang, Guangwen; 2018, C-Coupler2: a flexible and user-friendly community coupler for model coupling and nesting, Geoscientific Model Development, 11(9): 3557-3586
Zhou, Lu; Xu, Shiming; Liu, Jiping; Wang, Bin; 2018, On the retrieval of sea ice thickness and snow depth using concurrent laser altimetry and L-band remote sensing data, Cryosphere, 12(3): 993-1012
Sun, Chao; Liu, Li; Li, Li-Juan; Wang, Bin; Zhang, Cheng; Liu, Qun; Li, Rui-Zhe, 2018, Uncertainties in simulated El Nino-Southern Oscillation arising from internal climate variability, Atmospheric Science Letters, 19(3), 10.1002/asl.805
Ma, Wenqian; Huang, Wenyu; Yang, Zifan; Wang, Bin; Lin, Daiyu; He, Xinsheng; 2018, Dynamic and Thermodynamic Factors Associated with Different Precipitation Regimes over South China during Pre-Monsoon Season, Atmosphere, 9(6), 10.3390/atmos9060219
Huang, Wenyu; He, Xinsheng; Yang, Zifan; Qiu, Tianpei; Wright, Jonathon S.; Wang, Bin; Lin, Daiyu; 2018, Moisture Sources for Wintertime Extreme Precipitation Events Over South China During 1979-2013, Journal of Geophysical Research-Atmospheres, 123(13): 6690-67