Citation: | Wang Xiaolan, Ma Guanyi. Derivation of TEC and GPS hardware delay based on dual-frequency GPS observations[J]. Chinese Journal of Space Science, 2014, 34(2): 168-179. doi: 10.11728/cjss2014.02.168 |
[1] |
Mannucci A, Wilson B, Yuan D, et al. A global mapping technique for GPS-derived ionospheric total electron content measurements[J]. Radio Sci., 1998, 33(3):565-582
|
[2] |
Liu Jingnan. Principles and Methods of Wide Area Differential GPS[M]. Wuhan: Surveying and Mapping Press. 1999. In Chinese (刘经南. 广域差分GPS原理和方法[M]. 武汉: 测绘出版社, 1999)
|
[3] |
Lanyi G E, Roth T. A comparison of mapped and measured total ionospheric electron content using global positioning system and beacon satellite observations[J]. Radio Sci., 1988, 23(4):483-492
|
[4] |
Coco D S, Coker C, Dahlke S R, Clynch J R. Variability of GPS satellite differential group delay biases, aerospace and electronic systems[J]. IEEE Trans., 1991, 27(6):931-938
|
[5] |
Sardon E, Rius A, Zarraoa N. Estimation of the transmitter and receiver differential biases and the ionospheric total electron content from Global Positioning System observations[J]. Radio Sci., 1994, 29(3):577-586
|
[6] |
Iijima B, Harris I, Ho C, et al. Automated daily process for global ionospheric total electron content maps and satellite ocean altimeter ionospheric calibration based on Global Positioning System data[J]. J. Atmos. Solar-Terr. Phys., 1999, 61(16):1205-1218
|
[7] |
Rideout W, Coster A. Automated GPS processing for global total electron content data[J]. GPS Solut., 2006, 10(3):219-228
|
[8] |
Ma G, Maruyama T. Derivation of TEC and estimation of instrumental biases from GEONET in Japan[J]. Ann. Geophys., 2003, 21:2083-2093
|
[9] |
Cai Changsheng, Gao Jingxiang, Li Zhenghang. Monitoring seasonal variarions of ionospheric TEC using GPS measurements[J]. Geomat. Inf. Sci. Wuhan Univ., 2011, 36(10):1218-1221. In Chinese (蔡昌盛, 高井祥, 李征航. 利用GPS监测电离层总电子含量的季节性变化[J]. 武汉大学学报:信息科学版, 2011, 36(10):1218-1221)
|
[10] |
Gao Wei. Derivation of GPS-TEC and Instrumental Biases in the Equatorial Anomaly Region[D]. Beijing: University of the Chinese Academy of Sciences, 2008. In Chinese (高伟, 赤道异 常区电离层GPS-TEC与系统硬件偏差反演[D]. 北京: 中国科学院大学, 2008)
|
[11] |
Ma G, Gao W, Li J, et al. Estimation of GPS instrumental biases from small scale network[J]. Adv. Space Res., 2013, doi.org/10.1016/j.asr.2013.01.008
|
[12] |
Kaplan E D, Hegarty C J. Understanding GPS: Principles and Applications[M]. Washington: Artech House Publishers, 2006
|
[13] |
Li Qiang, Feng Man, Zhang Donghe, et al. Methods of estimation of GPS instrumental bias from single site's GPS data and comparative study of results[J]. J Peking Univ: Nat. Sci., 2007, 2(2):37-44. In Chinese (李强, 冯曼, 张东和, 等. 基于单站GPS数据的GPS系统硬件延迟估算方法及结果比较[J]. 北京大学学报:自然科学版, 2007, 2(2):37-44)
|
[14] |
Chang Qing, Zhang Donghe, Xiao Zuo, Zhang Qishan. A method for estimation GPS instrumental biases and its application in TEC calculation[J]. Chin. J. Geophys., 2001, 40(5):596-601. In Chinese (常青, 张东和, 萧佐, 张其善. GPS系统硬件延迟估计方法及其在TEC计算中的应用[J]. 地球物理学报, 2001, 40(5):596-601)
|
[15] |
Li Qiang, Feng Man, Zhang Donghe, Xiao Zuo, Shi Liqin. Methods of estimation of GPS instrumental bias from single site's GPS data and comparative study of results[J]. J. Peking Univ.: Nat. Sci., 2008, 44(1):149-156. In Chinese (李强, 冯曼, 张东和, 萧佐, 师立勤. 基于单站GPS数据的GPS系统硬件延迟估算方法及结果比较[J]. 北京大学学报:自然科学版, 2008, 44(1):149-156)
|
[16] |
Huang Zhi, Yuan Hong, Wan Weixing. Test of GPS TEC hardware biases estimating methods[J]. Chin. J. Radio Sci., 2003, 18(4):472-476. In Chinese (黄智, 袁洪, 万卫星. GPSTEC硬件偏差估计方法的有效性[J]. 电波 科学学报, 2003, 18(4):472-476)
|
[17] |
Schaer S. Mapping and predicting the Earth's ionosphere using the Global Positioning System[J]. Geod.-Geophys. Arb. Schiweiz, 1999, 59: 01
|
[18] |
Feltens J. Development of a new three-dimensional mathematical ionosphere model at European Space Agency/European Space Operations Centre[J]. Space Weather, 2001, 5, S12002, doi: 10.1029/2006SW000294
|
[19] |
Wilson B D, Mannucci A J, Edwards C D. Subdaily northern hemisphere ionospheric maps using an extensive network of GPS receivers[J]. Radio Sci., 1995, 30(3):639-648
|
[20] |
Li Z, Yuan Y, Li H, et al. Two-step method for the determination of the differential code biases of COMPASS satellites[J]. J. Geod., 2012, 86:1059-1076, doi: 10.1007/s00190-012-0565-4
|
[21] |
Ovstedal O. Absolute positioning with single-frequency GPS receivers[J]. GPS Solut., 2002, 5(4):33-44
|
[22] |
Otsuka Y, Ogawa T, Saito A, et al. A new technique for mapping of total electron content using GPS network in Japan[J]. Earth Planets Space, 2002, 54:63-70
|
[23] |
Li Zhenghang, Huang Jinsong. GPS Surveying and Date Processing[M]. Wuhan: Wuhan University Press. 2005. In Chinese (李征航, 黄劲松. GPS测量与数据处理[M]. 武汉: 武汉大学出版社, 2005)
|
[24] |
Zhang Hongping, Shi Chuang, Tang Weiming. United solution to polynomial VTEC modeling and DCB analysis using ground-based GPS observations[J]. Geom. Inf. Sci. Wuhan Univ., 2008, 33(8):805-809. In Chinese (章红平, 施闯, 唐卫明. 地基GPS区域电离层多项式模型与硬件 延迟统一解算分析[J]. 武汉大学学报: 信息科学版, 2008, 33(8):805-809)
|
[25] |
Zhang D, Zhang W, Li Q, et al. Accuracy analysis of the GPS instrumental bias estimated from observations in middle and low latitudes[J]. Ann. Geophys., 2010, 28(8):1571-1580
|
[26] |
Jin R, Jin S, Feng G. M_DCB: Matlab code for estimating GNSS satellite and receiver differential code biases[J]. GPS Solut., 2012, 16:541-548
|
[27] |
Gao Y, Heroux P, Liao X, et al. GPS instrumental bias between receivers[C]//ION 55th Annual Meeting. Cambridge: Institute of Navigation, 1999
|
[28] |
Feltens J. The activities of the ionosphere working group of the International GPS Service (IGS)[J]. GPS Solut., 2003, 7(1):41-46
|
[29] |
Rao G S. GPS satellite and receiver instrumental biases estimation using least squares method for accurate ionosphere modeling[J]. J. Earth Syst. Sci., 2007, 116(5):407-411
|
[30] |
Brunini C, Azpilicueta F J. Accuracy assessment of the GPS-based slant total electron content[J]. J. Geod., 2009, 83(8):773-785
|
[31] |
Brunini C, Azpilicueta F. GPS slant total electron content accuracy using the single layer model under different geomagnetic regions and ionospheric conditions[J]. J. Geod., 2010, 84(5):293-304
|
[32] |
Zhang D, Zhang W, Li Q, et al. Accuracy analysis of the GPS instrumental bias estimated from observations in middle and low latitudes[J]. Ann. Geophys., 2010, 28:1571-1580
|
[33] |
Choi B, Cho J, Lee S. Estimation and analysis of GPS receiver differential code biases using KGN in Korean Peninsula[J]. Adv. Space Res., 2011, 47(9):1590-1599
|
[34] |
Li Dong, Wang Jing, Song Shuli, Lu Xiushan. Calculating the differential code bias bases on the areal ionosphere mode[J]. Eng. Surv. Mapping, 2011, 20(6):40-44. In Chinese (李东, 王静, 宋淑丽, 卢秀山. 基于区域电离层建模的硬件延 迟参数估计[J]. 测绘工程, 2011, 20(6):40-44)
|
[35] |
Wang Hu, Wang Jiexian, Bai Guixia, Zhu Weidong. Real-time monitoring of ionosphere changes in the Shanghai region by GPS technology[J]. Chin. J. Space Sci., 2011, 31(5):602-606. In Chinese (王虎, 王解先, 白贵霞, 朱卫东. 利用GPS技术实时监测上海区域电离层变化[J]. 空间科学学报, 2011, 31(5):602-606)
|