學(xué)習(xí)經(jīng)歷
2001.09--2005.06? 武漢大學(xué),大地測量學(xué)專業(yè),學(xué)士
2005.09--2007.06? 武漢大學(xué),大地測量學(xué)專業(yè),碩士
2007.09--2013.01? 中國科學(xué)院大學(xué),大地測量學(xué)與測量工程專業(yè),博士
(其間: 2011.12--2013.01?? 澳大利亞科廷大學(xué),Research Fellow)
工作經(jīng)歷
2013.01--2016.08? 澳大利亞科廷大學(xué),博士后
2016.08--2019.01? 中國科學(xué)院測量與地球物理研究所工作
2019.01--2020.03? 中國科學(xué)院測量與地球物理研究所,研究員
2020.03--??????? 中國科學(xué)院精密測量科學(xué)與技術(shù)創(chuàng)新研究院,研究員
(其間: 2020.08--? 測量與導(dǎo)航研究部副主任)
(1)空間大地測量
(2)衛(wèi)星導(dǎo)航定位
1、國家自然科學(xué)基金委員會,優(yōu)秀青年科學(xué)基金項目,42022025,精密衛(wèi)星導(dǎo)航定位技術(shù)與應(yīng)用,2021-01至2023-12,120萬元,結(jié)題,主持
2、國家自然科學(xué)基金委員會,面上項目,41774042,利用單頻多模GNSS觀測值同步估計VTEC和衛(wèi)星DCB的算法研究,2018-01至2021-12,70萬元,結(jié)題,主持
3、國家自然科學(xué)基金委員會,青年科學(xué)基金項目,41604031,多頻多GNSS衛(wèi)星相位偏差估計與播發(fā)形式優(yōu)化的方法研究,2017-01至2019-12,20萬元,結(jié)題,主持
4、國家自然科學(xué)基金委員會,專項項目,42342004,會議培訓(xùn)類:2023全球華人導(dǎo)航定位協(xié)會(CPGPS)學(xué)術(shù)論壇,2023-07至2024-12,10萬元,結(jié)題,主持
5、湖北省科學(xué)技術(shù)廳, 自然科學(xué)基金創(chuàng)新群體項目, 2020CFA048, 協(xié)同精密定位技術(shù)在公共衛(wèi)生事件防控中的應(yīng)用研究, 2020-03至2023-03, 50萬元, 結(jié)題, 主持
6、中國科學(xué)院,科研儀器設(shè)備研制項目,YJKYYQ20190063,PPP-RTK/INS 組合導(dǎo)航核心模塊研發(fā)與設(shè)計,2020-01至2021-12,197萬元,結(jié)題,主持
7、中國科學(xué)院任務(wù),修購項目,融合下一代北斗綜合PNT智能泛在協(xié)同精密定位測試與服務(wù)平臺系統(tǒng),2024-01至2024-12,372萬元,結(jié)題,主持
8、中國科學(xué)院任務(wù),未來伙伴網(wǎng)絡(luò)專項,314GJHZ2022034FN,北斗/GNSS時間傳遞關(guān)鍵技術(shù),2023-12至2025-12,30萬元,在研,主持
9、中國國家鐵路集團有限公司,橫向項目,N2023X003,鐵路移動場景下北斗多源融合自適應(yīng)精密定位關(guān)鍵技術(shù)及應(yīng)用研究,2023-07至2024-12,100萬元,結(jié)題,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)孫和平, 楊元喜, 葉朝暉, 閆昊明, 管樺, 彭鵬, 張寶成, 侯明強, 程惠紅, 于晟. (2024). 精密(量子)測量時代下時空基準(zhǔn)研究中的關(guān)鍵科學(xué)問題和核心技術(shù). 中國科學(xué)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, 劉騰, 查九平, 侯鵬宇, & 張寶成*. (2023). 非差非組合電離層加權(quán) PPP-RTK/INS 緊組合模型. 地球物理學(xué)報, 66(9), 3650-3661.
(14)查九平, 張寶成*, 劉騰, 張嘯, 侯鵬宇, 袁運斌, & 李子申. (2023). BDS-3 PPP-B2b 精密軌道輔助非差非組合 PPP-RTK. 測繪學(xué)報, 52(9), 1449.
(15)侯鵬宇, 張寶成*, 劉騰, & 查九平. (2023). CDMA+ FDMA 非差非組合區(qū)域 PPP-RTK. 測繪學(xué)報, 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)張寶成*, 柯成, 查九平, 侯鵬宇, 劉騰, & 袁運斌, et al. (2022). 非差非組合ppp-rtk:模型算法,終端樣機與實測結(jié)果. 測繪學(xué)報(008), 051.
(23)袁運斌, 侯鵬宇, & 張寶成*. (2022). Gnss非差非組合數(shù)據(jù)處理與ppp-rtk高精度定位. 測繪學(xué)報(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)張寶成, 袁運斌*, & 歐吉坤. (2016). GPS接收機儀器偏差的短期時變特征提取與建模. 地球物理學(xué)報, 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)張寶成, 袁運斌*, & 蔣振偉. (2015). 一種無須變換參考星的 GNSS 單基線卡爾曼濾波算法. 測繪學(xué)報, 44(9), 958.
(54)張寶成*, & ODIJK Dennis. (2015). 一種能實現(xiàn)單頻ppp-rtk的gnss局域參考網(wǎng)數(shù)據(jù)處理算法. 地球物理學(xué)報, 58(7), 2306-2319.
(55)張寶成*, 歐吉坤, & 袁運斌. (2014). 基于精選基準(zhǔn)消秩虧的 GNSS 參考網(wǎng)數(shù)據(jù)處理方法. 測繪學(xué)報, 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)張寶成*, 歐吉坤, 袁運斌, & 蔣振偉. (2012). 多參考站 GPS 網(wǎng)提取精密大氣延遲. 測繪學(xué)報, 41(4), 523-528.
(59)張寶成*, Teunissen PJG, Odijk D, 歐吉坤, & 蔣振偉. (2012). 精密單點定位整周模糊度快速固定. 地球物理學(xué)報, 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)張寶成*, & 歐吉坤. (2011). 論精密單點定位整周模糊度解算的不同策略. 測繪學(xué)報, 40(6), 710.
(62)張寶成*, 歐吉坤, 袁運斌, & 李子申. (2011). 利用非組合精密單點定位技術(shù)確定斜向電離層總電子含量和站星差分碼偏差. 測繪學(xué)報, 40(4), 0.
(63)張寶成*, 歐吉坤, 李子申, & 袁運斌. (2011). 利用精密單點定位求解電離層延遲. 地球物理學(xué)報, 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)張寶成*, & 歐吉坤. (2010). 基于 GPS 雙頻原始觀測值的精密單點定位算法及應(yīng)用. 測繪學(xué)報, 39(5), 478.
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