• 张胜军
  • 发布人: 发布日期:[2019-01-07] 点击次数:[128]

  • 一、个人情况

    张胜军,19879月生,山东单县人,博士,副教授、博士生导师。丹麦科技大学(DTU)访问学者,兼任国际大地测量学会(IAG)卫星测高服务(IAS)专家委员会成员、中国遥感应用协会生态环境遥感分会委员、辽宁省地质学会青年工作委员会委员等。

    2005年至2016年,先后在中国石油大学(华东)、中国石油大学(华东)&自然资源部第一海洋研究所、武汉大学攻读学士、硕士和博士学位。2017年至今,在东北大学测绘工程系工作。

    二、主要研究方向

    1)卫星测高数据处理及大地测量学应用,海洋重力场建模(大地水准面、垂线偏差、重力异常)、海平面变化监测及海底地形反演。

    2)海洋动力环境(海洋环流、中尺度涡、海浪、海冰)及内陆水体(水体面积、水位、水深、水储量)的多源遥感监测方法。

    三、主要承担课程

    《大地与控制测量》、《空间大地测量学》、《不动产测量与管理》、《海洋遥感》等

    四、主持科研项目

    1)国家自然科学青年基金“面向海洋重力场反演的新型测高任务波形重跟踪算法研究”。

    2中央高校基本科研业务费青年教师创新基金“卫星测高资料反演海洋重力场的改进关键技术研究”。

    3)中央高校基本科研业务费国家项目培育基金“卫星测高资料空间分布与反演方法对海洋重力场建模的影响研究”。

    4)横向课题“融合HY-2A&HY-2B测高资料的中国南海海域重力场探测研究”、“重力场产品生产软件模块研制”、“海洋船测重力与测高数据融合技术”等。

    5)军工类课题“2022CL10H001”、“2022ZT04H003”、“2025GFYD15”等。

    五、发表期刊论文

    1Shengjun Zhang, Xu Chen, Runsheng Zhou, et al., NSOAS24: a new global marine gravity model derived from multi-satellite sea surface slopes, Geoscientific Model Development, 2025, 18(4), 1221–1239.

    2Xu Chen., Shengjun Zhang*, Ole Baltazar Andersen, et al., Along-track marine geoid resolution enhancement with SWOT, Earth and Space Science, 2025, 12, e2024EA003893.

    3Yong Wang, Shengjun Zhang*, Xiangxue Kong, Wanning Wang. An automatic eddy detection algorithm based on quadrant angle of velocity vector and its application. International Journal of Remote Sensing, 2024, 46(2), 606-635.

    4Xu Chen, Xiangxue Kong, Runsheng Zhou, Shengjun Zhang*. Fusion of altimetry-derived model and ship-borne data in preparation of high-resolution marine gravity determination, Geophysical Journal International, 2024, 236(3):1262-1274

    5Shengjun Zhang, Runsheng Zhou, Yongjun Jia, Taoyong Jin, Xiangxue Kong. Performance of HaiYang-2 Altimetric Data in Marine Gravity Research and a New Global Marine Gravity Model NSOAS22. Remote Sensing, 2022.

    6Shengjun Zhang, Adili Abulaitijiang, Ole Baltazar Andersen, David T. Sandwell, James R. Beale. Comparison and evaluation of high-resolution marine gravity recovery via sea surface heights or sea surface slopes. Journal of Geodesy. 2021.

    7Ole Baltazar Andersen, Shengjun Zhang*, David T. Sandwell, Gérald Dibarboure, Walter H. F. Smith, Adili Abulatijiang. The Unique Role of the Jason Geodetic Missions for High Resolution Gravity Field and Mean Sea Surface Modelling, Remote Sensing, 2021.

    8Defu Che, Hang Li, Shengjun Zhang*, Baodong Ma. Calculation of Deflection of Vertical and Gravity Anomalies Over the South China Sea Derived from ICESat-2 Data. Frontiers in Earth Science. 2021, 9:670256.

    9Guodong Chen, Shengjun Zhang*, Shenghao Liang, Jiaheng Zhu. Elevation and Volume Changes in Greenland Ice Sheet From 2010 to 2019 Derived From Altimetry Data. Frontiers in Earth Science. 2021,9:674983.

    10Shengjun Zhang, Ole Baltazar Andersen, Xiangxue Kong, Hang Li. Inversion and Validation of Improved Marine Gravity Field Recovery in South China Sea by Incorporating HY-2A Altimeter Waveform Data. Remote Sensing, 2020.

    11Shengjun Zhang, Jiancheng Li, Taoyong Jin, Defu Che. HY-2A Altimeter Data Initial Assessment and Corresponding Two-Pass Waveform Retracker. Remote Sensing, 2018, 10, 507.

    12Shengjun Zhang, Jiancheng Li, Taoyong Jin, Defu Che. Assessment of radar altimetry correction slopes for marine gravity recovery: A case study of Jason-1 GM data. Journal of Applied Geophysics. 2018, 151, 90-102.

    13Shengjun Zhang, David T. Sandwell. Retracking of SARAL/AltiKa radar altimetry waveforms for optimal gravity field recovery. Marine Geodesy, 2017, 40(1): 40-56.

    14Shengjun Zhang, David T. Sandwell, Taoyong Jin, Dawei Li. Inversion of Marine Gravity Anomalies over Southeastern China Seas from Multi-satellite Altimeter Vertical Deflections. Journal of Applied Geophysics, 2017, 37(1): 128-137.

    15张胜军,李建成,孔祥雪. 基于Laplace方程的垂线偏差法反演全球海域重力异常, 测绘学报, 2020, 49(4): 452-460.

    16张胜军. 利用多源卫星测高资料确定海洋重力异常的研究. 测绘学报, 2017, 46(8):1071.

    17张胜军,金涛勇,褚永海,孔祥雪. Cryosat-2数据的大地水准面分辨能力研究. 武汉大学学报•信息科学版. 2016, 41(6): 759-764.

    18张胜军,李建成,褚永海,孔祥雪. 基于CryosatJason1 GM数据的垂线偏差计算与分析. 武汉大学学报•信息科学版. 2015, 40(8): 1012-1017.

    19张胜军,李建成,王立伟,孔祥雪. GM测高数据反演中国近海及邻域精细重力场. 海洋学报. 2014, 36(11): 85-89.

    20张胜军,万剑华,杨俊钢. 基于多颗在轨高度计数据的中国近海平均海平面模型建立. 海洋学报. 2012, 34(6): 66-73.

    21)周润生, 张胜军*, 孔祥雪. 基于谱分析的HY-2沿轨大地水准面分辨能力研究.东北大学学报(自然科学版), 2023, 44(09): 1328-1336.

    22)陈旭, 孔祥雪, 周润生, 张胜军*.一种基于SWOT宽刈幅模拟数据的沿轨垂线偏差求解方法.海洋学报, 2023, 45(11): 175-184.

    23侯恺昕, 张胜军*, 孔祥雪, 基于验潮站资料的HY-2A测高数据质量评定, 海洋学报, 2019, 41(7): 136-142.

    24杨冯莲,张胜军*李航,孔祥雪,王万宁. 大地测量与测高资料的垂线偏差解算与分析,测绘科学,2020, 45(7): 70-74, 99.

    25吴星泉, 张胜军*, 车德福, 利用CryoSat-2卫星测高资料确定北极海冰干舷高, 测绘通报, 2019 (7): 64-68.

    26Ole Baltazar Andersen, Stine Kildegaard Rose, Adili Abulaitijiang, Shengjun Zhang, Sara Fleury. The DTU21 global mean sea surface and first evaluation. Earth System Science Data, 2023, 15, 4065-4075.

    27Nengfang Chao, Shuai Wang, Guichong Ouyang, Cheinway Hwang*, Taoyong Jin, Chengcheng Zhu, Adili Abulaitijiang, Shengjun Zhang, Lianzhe Yue, Gang Chen, Yanze Zhang. An improved triple collocation-based integration of multiple gravity anomaly grids from satellite altimetry: Contribution of ICESat-2. Remote Sensing of Environment, 2023.

    28Guodong Chen, Zhijie Zhang, Stine Kildegaard Rose, Ole Baltazar Andersen, Shengjun Zhang, Taoyong Jin. A new Arctic MSS model derived from combined Cryosat-2 and ICESat observations. International Journal of Digital Earth, 2022, 15(1): 2202-2222.

    29Taoyong Jin, Mao Zhou, Huan Zhang, Jiancheng Li, Weiping Jiang, Shengjun Zhang, Minzhang Hu. Analysis of vertical deflections determined from one cycle of simulated SWOT wide-swath altimeter data. Journal of Geodesy, 2022.

    30Zhen Li, Jinyun Guo, Bing Ji, Xiaoyun Wan, Shengjun Zhang. A Review of Marine Gravity Field Recovery from Satellite Altimetry. Remote Sensing, 2022.

    31Wei Liang, Jiancheng Li, Xinyu Xu, Shengjun Zhang, Yongqi Zhao. A High-Resolution Earth’s Gravity Field Model SGG-UGM-2 from GOCE, GRACE, Satellite Altimetry, and EGM2008. Engineering, 2020, 6(8): 860-878.

    32Weiping Jiang, Lifeng Peng, Taoyong Jin, Shengjun Zhang, Variability of the Kuroshio extension system in 1992–2013 from satellite altimetry data, Geodesy and Geodynamics, 2017, 8(2):103-110.

    33陈国栋, 张胜军, 利用ICESat数据确定格陵兰冰盖高程和体积变化, 地球物理学报, 2019, 62(7): 2417-2428.

    34胡敏章,张胜军,金涛勇,文汉江,褚永海,姜卫平,李建成,新一代全球海底地形模型BAT_WHU2020. 测绘学报,2020, 49(8): 939-954.

    35)车德福,李航,张胜军,马保东. 同步激光测高数据的垂线偏差解算与分析. 测绘科学,2021, 46(11), 24-31.

    36姜言清,李晔,王友康,曹建,李岳明,孙叶义,殷玉齐,张胜军. 全海深水下机器人的重力和浮力计算,哈尔滨工程大学学报,2020, 41(4): 481-486.

    37孔祥雪, 申文斌, 张胜军, 利用卫星双向时间频率传递确定重力位差和高程差, 武汉大学学报•信息科学版, 2016, 41(7): 969-973.

    38王立伟, 张胜军, 郭明志, 鞠英博, 一种无需考虑轨迹特征的交叉点确定方法, 测绘地理信息, 2015, 40(3): 35-38.

    39彭利峰, 张胜军, 李大炜, 赵倩, 中国近海及临海稳态海面地形研究,大地测量与地球动力学,2013(4): 65-68.

    40王立伟, 金涛勇, 张胜军, 李大炜, CryoSat-2卫星海冰区域波形识别及海冰干舷高确定, 大地测量与地球动力学,2015, 35(4): 722-725.

    41孔祥雪, 申文斌, 张胜军, 联合卫星双向时间频率传递和GNSS观测数据确定重力位差和高程差, 大地测量与地球动力学,2015, 35(3): 495-498.

    42彭利峰, 姜卫平, 金涛勇, 张胜军, 利用GOCE重力场模型确定全球稳态海面地形及表层地转流, 海洋学报, 2013, 35(2): 15-20.

    六、联系方式

    办公室:采矿学馆209b

    Emailzhangshengjun@mail.neu.edu.cn