学习经历
2007年09月-2013年01月  中国科学院大学  大地测量学与测量工程 博士研究生
2005年09月-2007年06月  武汉大学  测量工程 硕士研究生
2001年09月-2005年06月  武汉大学  测量工程 学士
工作经历
2010年03月-2011年02月  澳大利亚科廷大学 GNSS研究中心 访问学生
2013年01月-2016年08月  澳大利亚科廷大学 GNSS研究中心 博士后
2016年08月-2019年01月  中国科学院测量与地球物理研究所工作
2019年01月-2020年03月  中国科学院测量与地球物理研究所 项目研究员
2020年03月至今：中国科学院精密测量科学与技术创新研究院 研究员
(其间： 2020年08月-  测量与导航研究部副主任
2024年12月--  科研第二党总支委员、大地测量与导航党支部书记）

（1）空间大地测量
（2）卫星导航定位

1、国家自然科学基金委员会，优秀青年科学基金项目，42022025，精密卫星导航定位技术与应用，2021-01至2023-12，120万元，结题，主持
2、国家自然科学基金委员会，面上项目，41774042，利用单频多模GNSS观测值同步估计VTEC和卫星DCB的算法研究，2018-01至2021-12，70万元，结题，主持
3、国家自然科学基金委员会，青年科学基金项目，41604031，多频多GNSS卫星相位偏差估计与播发形式优化的方法研究，2017-01至2019-12，20万元，结题，主持
4、国家自然科学基金委员会，专项项目，42342004，会议培训类：2023全球华人导航定位协会（CPGPS）学术论坛，2023-07至2024-12,10万元，结题，主持
5、湖北省科学技术厅, 自然科学基金创新群体项目, 2020CFA048, 协同精密定位技术在公共卫生事件防控中的应用研究, 2020-03至2023-03, 50万元, 结题, 主持
6、中国科学院，科研仪器设备研制项目，YJKYYQ20190063，PPP-RTK/INS 组合导航核心模块研发与设计，2020-01至2021-12，197万元，结题，主持
7、中国科学院任务，修购项目，融合下一代北斗综合PNT智能泛在协同精密定位测试与服务平台系统，2024-01至2024-12，372万元，结题，主持
8、中国科学院任务，未来伙伴网络专项，314GJHZ2022034FN，北斗/GNSS时间传递关键技术，2023-12至2025-12，30万元，在研，主持
9、中国国家铁路集团有限公司，横向项目，N2023X003，铁路移动场景下北斗多源融合自适应精密定位关键技术及应用研究，2023-07至2024-12，100万元，结题，主持

(1)Hou, P., Zhang*, B. (2025). A generalized least-squares filter designed for GNSS data processing. J Geod 99, 3.
(2)Ke, C., Khodabandeh, A. & Zhang*, B. (2024). A processing strategy for handling latency of PPP-RTK corrections. J Geod 98, 108.
(3)Hou, P., Ye, F., Liu, Y. Zha, J., Chalermchon, S., & Zhang*, B. (2024). A comparison of two PPP-RTK models: S-basis choice, network product precision, and user positioning performance. GPS Solut 28, 90.
(4)Gao, R., Ye, F., Liu, Y. Zha, J., Robert, O., Chalermchon, S., & Zhang*, B. et al. (2024). Optimizing ZWD estimation strategies for enhanced PPP-RTK performance. GPS Solut 28, 86.
(5)Ke, C., Zhang*, B. & Khodabandeh, A. (2024). Extension of the undifferenced and uncombined CDMA PPP-RTK for not-common-frequency GNSS observations. GPS Solut 28, 102.
(6)孙和平, 杨元喜, 叶朝晖, 闫昊明, 管桦, 彭鹏, 张宝成, 侯明强, 程惠红, 于晟. (2024). 精密(量子)测量时代下时空基准研究中的关键科学问题和核心技术. 中国科学基金.
(7)Gao, R., Liu, Z., Odolinski, R., & Zhang*, B. (2024). Improving GNSS PPP-RTK through global forecast system zenith wet delay augmentation. GPS Solutions, 28(2), 1-14.
(8)Hou, P., Zhang*, B., & Yasyukevich, Y. V. (2024). Homogeneous PPP–RTK user positioning performance as a consequence of network integer ambiguity resolution. GPS Solutions, 28(2), 60.
(9)Ke, C., Hou, P., & Zhang*, B. (2023). GNSS-RTK model: common-frequency versus mixed-frequency. GPS Solutions, 27(3), 128.
(10)Gao, R., Liu*, Z., Odolinski, R., Jing, Q., Zhang, J., Zhang, H., & Zhang*, B. (2023). Hong Kong–Zhuhai–Macao Bridge deformation monitoring using PPP-RTK with multipath correction method. GPS Solutions, 27(4), 195.
(11)Hou, P., & Zhang*, B. (2023). Decentralized GNSS PPP-RTK. Journal of Geodesy, 97(7), 72.
(12)Mi, X., Zhang*, B., El-Mowafy, A., Wang, K., & Yuan, Y. (2023). Undifferenced and uncombined GNSS time and frequency transfer with integer ambiguity resolution. Journal of Geodesy, 97(2), 13.
(13)柯成, 刘腾, 查九平, 侯鹏宇, & 张宝成*. (2023). 非差非组合电离层加权 PPP-RTK/INS 紧组合模型. 地球物理学报, 66(9), 3650-3661.
(14)查九平, 张宝成*, 刘腾, 张啸, 侯鹏宇, 袁运斌, & 李子申. (2023). BDS-3 PPP-B2b 精密轨道辅助非差非组合 PPP-RTK. 测绘学报, 52(9), 1449.
(15)侯鹏宇, 张宝成*, 刘腾, & 查九平. (2023). CDMA+ FDMA 非差非组合区域 PPP-RTK. 测绘学报, 52(2), 183.
(16)Mi, X., Zhang*, B., El-Mowafy, A., Wang, K., & Yuan, Y. (2023). On the potential of undifferenced and uncombined GNSS time and frequency transfer with integer ambiguity resolution and satellite clocks estimated. GPS Solutions, 27(1), 25.
(17)Zhang*, B., Hou, P., & Odolinski, R. (2022). PPP-RTK: from common-view to all-in-view GNSS networks. Journal of Geodesy, 96(12), 102.
(18)Zhang*, B., Hou, P., Zha, J., & Liu, T. (2022). PPP–RTK functional models formulated with undifferenced and uncombined GNSS observations. Satellite Navigation, 3(1), 3.
(19)Xu, L., Zha, J., Li, M., Yuan, Y., & Zhang*, B. (2022). Estimation of ionospheric total electron content using GNSS observations derived from a smartphone. GPS Solutions, 26(4), 138.
(20)Rui, G. , Zhizhao, L. , & Baocheng*, Z. . (2022). Ionosphere-weighted post-processing kinematic for airborne positioning with refined modeling of receiver phase biases and tropospheric zenith wet delays. GPS Solutions.
(21)Hou, P. , Zhang*, B. , Yasyukevich, Y. V. , Liu, T. , & Zha, J. . (2022). Multi-frequency phase-only ppp-rtk model applied to beidou data. GPS Solutions(3), 26.
(22)张宝成*, 柯成, 查九平, 侯鹏宇, 刘腾, & 袁运斌, et al. (2022). 非差非组合ppp-rtk:模型算法,终端样机与实测结果. 测绘学报(008), 051.
(23)袁运斌, 侯鹏宇, & 张宝成*. (2022). Gnss非差非组合数据处理与ppp-rtk高精度定位. 测绘学报(051-007).
(24)Liu, T., & Zhang*, B. (2021). Estimation of code observation-specific biases (OSBs) for the modernized multi-frequency and multi-GNSS signals: An undifferenced and uncombined approach. Journal of Geodesy, 95(8), 97.
(25)Zhang*, B., Hou, P., Zha, J., & Liu, T. (2021). Integer-estimable FDMA model as an enabler of GLONASS PPP-RTK. Journal of Geodesy, 95, 1-21.
(26)Zhao, C., Zhang*, B., & Zhang, X. (2021). SUPREME: an open-source single-frequency uncombined precise point positioning software. GPS Solutions, 25, 1-8.
(27)Zhang*, B., Zhao, C., Odolinski, R., & Liu, T. (2021). Functional model modification of precise point positioning considering the time-varying code biases of a receiver. Satellite Navigation, 2(1), 1-10.
(28)Mi, X., Sheng, C., El-Mowafy, A., & Zhang*, B. (2021). Characteristics of receiver-related biases between BDS-3 and BDS-2 for five frequencies including inter-system biases, differential code biases, and differential phase biases. GPS Solutions, 25(3), 113.
(29)Hou, P., Zhang*, B., & Yuan, Y. (2021). Analysis of the stochastic characteristics of GPS/BDS/Galileo multi-frequency observables with different types of receivers. Journal of Spatial Science, 66(1), 49-73.
(30)Zha, J., Zhang*, B., Liu, T., & Hou, P. (2021). Ionosphere-weighted undifferenced and uncombined PPP-RTK: theoretical models and experimental results. GPS solutions, 25(4), 135.
(31)Hou, P., Zhang*, B., & Liu, T. (2020). Integer-estimable GLONASS FDMA model as applied to Kalman-filter-based short-to long-baseline RTK positioning. GPS Solutions, 24, 1-14.
(32)Mi, X., Zhang*, B., Odolinski, R., & Yuan, Y. (2020). On the temperature sensitivity of multi-GNSS intra-and inter-system biases and the impact on RTK positioning. GPS Solutions, 24, 1-14.
(33)Zhang*, B., Hou*, P., Liu, T., & Yuan, Y. (2020). A single-receiver geometry-free approach to stochastic modeling of multi-frequency GNSS observables. Journal of Geodesy, 94, 1-21.
(34)Liu*, T., Zhang*, B., Yuan, Y., & Zhang, X. (2020). On the application of the raw-observation-based PPP to global ionosphere VTEC modeling: an advantage demonstration in the multi-frequency and multi-GNSS context. Journal of Geodesy, 94, 1-20.
(35)Zhang*, B., Chen, Y., & Yuan, Y. (2019). PPP-RTK based on undifferenced and uncombined observations: theoretical and practical aspects. Journal of Geodesy, 93, 1011-1024.
(36)Mi, X., Zhang*, B., & Yuan, Y. (2019). Multi-GNSS inter-system biases: estimability analysis and impact on RTK positioning. GPS Solutions, 23, 1-13.
(37)Zha, J., Zhang*, B., Yuan, Y., Zhang, X., & Li, M. (2019). Use of modified carrier-to-code leveling to analyze temperature dependence of multi-GNSS receiver DCB and to retrieve ionospheric TEC. GPS Solutions, 23, 1-12.
(38)Zhang*, B., Teunissen, P. J., Yuan, Y., Zhang, X., & Li, M. (2019). A modified carrier-to-code leveling method for retrieving ionospheric observables and detecting short-term temporal variability of receiver differential code biases. Journal of Geodesy, 93, 19-28.
(39)Liu*, T., Zhang*, B., Yuan, Y., Zha, J., & Zhao, C. (2019). An efficient undifferenced method for estimating multi-GNSS high-rate clock corrections with data streams in real time. Journal of Geodesy, 93, 1435-1456.
(40)Li, M., Zhang*, B., Yuan, Y., & Zhao, C. (2019). Single-frequency precise point positioning (PPP) for retrieving ionospheric TEC from BDS B1 data. GPS Solutions, 23, 1-11.
(41)Liu*, T., Zhang*, B., Yuan, Y., Li, Z., & Wang, N. (2019). Multi-GNSS triple-frequency differential code bias (DCB) determination with precise point positioning (PPP). Journal of Geodesy, 93, 765-784.
(42)Zhang*, B., Liu, T., & Yuan, Y. (2018). GPS receiver phase biases estimable in PPP-RTK networks: dynamic characterization and impact analysis. Journal of Geodesy, 92, 659-674.
(43)Zhang*, B., Teunissen*, P. J., Yuan, Y., Zhang, H., & Li, M. (2018). Joint estimation of vertical total electron content (VTEC) and satellite differential code biases (SDCBs) using low-cost receivers. Journal of Geodesy, 92, 401-413.
(44)Chen, Y., Yuan, Y., Zhang*, B., Liu, T., Ding, W., & Ai, Q. (2018). A modified mix-differenced approach for estimating multi-GNSS real-time satellite clock offsets. GPS Solutions, 22, 1-10.
(45)Liu, T., Zhang*, B., Yuan, Y., & Li, M. (2018). Real-Time Precise Point Positioning (RTPPP) with raw observations and its application in real-time regional ionospheric VTEC modeling. Journal of Geodesy, 92, 1267-1283.
(46)Zhao, C., Yuan, Y., Zhang*, B., & Li, M. (2018). Ionosphere sensing with a low-cost, single-frequency, multi-GNSS receiver. IEEE Transactions on Geoscience and Remote Sensing, 57(2), 881-892.
(47)Zhang*, B., Teunissen, P. J., & Yuan, Y. (2017). On the short-term temporal variations of GNSS receiver differential phase biases. Journal of Geodesy, 91, 563-572.
(48)Zhang*, B. (2016). Three methods to retrieve slant total electron content measurements from ground-based GPS receivers and performance assessment. Radio Science, 51(7), 972-988.
(49)Odijk*, D., Zhang, B., Khodabandeh, A., Odolinski, R., & Teunissen, P. J. (2016). On the estimability of parameters in undifferenced, uncombined GNSS network and PPP-RTK user models by means of S-system theory. Journal of Geodesy, 90(1), 15-44.
(50)Zhang*, B., & Teunissen, P. J. G. (2016). Zero‐baseline analysis of GPS/BeiDou/Galileo between‐receiver differential code biases (BR‐DCBs): Time‐wise retrieval and preliminary characterization. Navigation: Journal of the Institute of Navigation, 63(2), 181-191.
(51)张宝成, 袁运斌*, & 欧吉坤. (2016). GPS接收机仪器偏差的短期时变特征提取与建模. 地球物理学报, 59(1).
(52)Zhang*, B., & Teunissen, P. J. (2015). Characterization of multi-GNSS between-receiver differential code biases using zero and short baselines. Science Bulletin, 60(21), 1840-1849.
(53)张宝成, 袁运斌*, & 蒋振伟. (2015). 一种无须变换参考星的 GNSS 单基线卡尔曼滤波算法. 测绘学报, 44(9), 958.
(54)张宝成*, & ODIJK Dennis. (2015). 一种能实现单频ppp-rtk的gnss局域参考网数据处理算法. 地球物理学报, 58(7), 2306-2319.
(55)张宝成*, 欧吉坤, & 袁运斌. (2014). 基于精选基准消秩亏的 GNSS 参考网数据处理方法. 测绘学报, 43(9), 895.
(56)Odijk, D., Teunissen*, P. J., & Zhang, B. (2012). Single-frequency integer ambiguity resolution enabled GPS precise point positioning. Journal of surveying engineering, 138(4), 193-202.
(57)Zhang*, B., Ou, J., Yuan, Y., & Li, Z. (2012). Extraction of line-of-sight ionospheric observables from GPS data using precise point positioning. Science China Earth Sciences, 55, 1919-1928.
(58)张宝成*, 欧吉坤, 袁运斌, & 蒋振伟. (2012). 多参考站 GPS 网提取精密大气延迟. 测绘学报, 41(4), 523-528.
(59)张宝成*, Teunissen PJG, Odijk D, 欧吉坤, & 蒋振伟. (2012). 精密单点定位整周模糊度快速固定. 地球物理学报, 55(7), 2203-2211.
(60)Zhang*, B., Teunissen, P. J., & Odijk, D. (2011). A novel un-differenced PPP-RTK concept. The Journal of Navigation, 64(S1), S180-S191.
(61)张宝成*, & 欧吉坤. (2011). 论精密单点定位整周模糊度解算的不同策略. 测绘学报, 40(6), 710.
(62)张宝成*, 欧吉坤, 袁运斌, & 李子申. (2011). 利用非组合精密单点定位技术确定斜向电离层总电子含量和站星差分码偏差. 测绘学报, 40(4), 0.
(63)张宝成*, 欧吉坤, 李子申, & 袁运斌. (2011). 利用精密单点定位求解电离层延迟. 地球物理学报, 54(4), 950-957.
(64)Teunissen, P. J., Odijk, D., & Zhang*, B. (2010). PPP-RTK: results of CORS network-based PPP with integer ambiguity resolution. J Aeronaut Astronaut Aviat Ser A, 42(4), 223-230.
(65)Zhang*, B., Ou, J., Yuan, Y., & Zhong, S. (2010). Yaw attitude of eclipsing GPS satellites and its impact on solutions from precise point positioning. Chinese Science Bulletin, 55, 3687-3693.
(66)张宝成*, & 欧吉坤. (2010). 基于 GPS 双频原始观测值的精密单点定位算法及应用. 测绘学报, 39(5), 478.