V F Kravchenko1, V I Lutsenko2, I V Lutsenko2, D O Popov2, A G Laush3, V N Gudkov3
(1. Kotel’nikov Institute of Radio Engineering and Electronics, Russian Academy of Sciences, Moscow 125009, Russia;2. Usikov Institute of Radiophysics and Electronics of National Academy of Sciences of Ukraine, Kharkov 61085, Ukraine;3. Co. Ltd. Navis-Ukraine, Smela 20708, Ukraine)
Abstract: The paper considers the possibility of correction of zenith tropospheric delays, and calculates it with the standard model, which takes into account the values of the refractive index of the troposphere at the time of measurement. Based on the experimental research, this empirical model of correction for zenith tropospheric delays can reduce the measurement error of coordinates to about 30% and altitude to about 40%.
Key words: zenith tropospheric delays; satellite navigation signal; global positioning system (GPS); global navigation satellite system (GLONASS)
CLD number: TN911.7 Document code: A
Article ID: 1674-8042(2014)04-0020-09doi: 10.3969/j.issn.1674-8042.2014.04.005
References
[1] Saastamoinen J. Atmospheric correction for troposphere and stratosphere in radio ranging of satellites In: Proceedings of the 3rd International Symposium on the Use of Artificial Satellites for Geodesy, American Geophysical Union, 2013, 15: 461.
[2] Hopfield H S. Tropospheric range error at the zenith. Space Research XII, Akademie-Verlag, Berlin, 1972: 581-594.
[3] Minimum operational performance standards for global positioning system, wide area augmentation system airborne equipment. RTCA/DO-229C, 2001.
[4] Black H D, Eisner A. Correcting satellite Doppler data for tropospheric effects. Journal of Geophysical Research, 1984, 89(D2): 2616-2626.
[5] Combined performances for SBAS receivers using WAAS and EGNOS. EU-US Cooperation on Satellite Navigation, 2010.
[6] Lutsenko V I, Lutsenko I V, Sitnik. O V, et al. Predicting of the refractive index of the troposphere from measurements of meteorological parameters in the reference points. Radio Physics and Electronics, 2012, 3(4):54-63.
[7] Lutsenko V I, Lutsenko I V, Popov I V, et al. Diagnostics of refraction coefficient on results of meteorological parameters measurement in arbitrary points of area. In: Proceedings of 2010 International Kharkov Symposium on Physics and Engineering of Microwaves, Millimeter and Submillimeter Waves, Kharkov, Ukraine, June 21-26, 2010[2013-06-12]. http:∥www.ire.kharkov.ua/MSMW10/index.htm.
对流层延迟修正的实证模型
V F Kravchenko1, V I Lutsenko2, I V Lutsenko2, D O Popov2, A G Laush3, V N Gudkov3
(1. Kotel’nikov Institute of Radio Engineering and Electronics, Russian Academy of Sciences, Moscow 125009, Russia;2. Usikov Institute of Radiophysics and Electronics of National Academy of Sciences of Ukraine, Kharkov 61085, Ukraine;3. Co Ltd. Navis-Ukraine, Smela 20708, Ukraine)
摘要:针对对流层延迟问题, 考虑测量时对流层的折射率, 采用标准模型计算对流层修正概率。 经大量实验研究得到对流层延迟修正模型, 它可以减少坐标测量误差约30%, 海拔测量误差约40%。
关键词:对流层延迟; 卫星导航信号; 全球定位系统(GPS); 全球导航卫星系统(GLONASS)
引用格式:Kravchenko V F, Lutsenko V I, Lutsenko I V, et al. Empirical model of correction for zenith tropospheric delay. Journal of Measurement Science and Instrumentation, 2014, 5(4): 20-28. [doi: 10.3969/j.issn.1674-8042.2014.04.005]
[full text view]
