Atmospheric Doppler Modelling for Open Loop Tracking in GPS-RO Receivers

Mohammadi, Leyla; Amiri, Shervin; Mohammadkhani, Gholamreza

Atmospheric Doppler Modelling for Open Loop Tracking in GPS-RO Receivers

Document Type : Original Research Paper

Authors

Leyla Mohammadi ¹

Shervin Amiri ²

Gholamreza Mohammadkhani ²

¹ Department of Institute for Communication Technology, ICT Research Institute.Tehran.IRAN

² Department of Institute of Electrical and Information Technology, Iranian Research Organization for Science and Technology (IROST).Tehran.IRAN

Abstract

One of the main challenges of the Open-Loop Signal Tracking method in GPS-RO space receivers, is Doppler prediction. Almost in all satellite communication systems, accurate carrier phase tracking under difficult conditions is depend on Doppler prediction accuracy. Obviously, there are several methods for producing a predicted Doppler model, and one of the earliest is Sokolovskiy. In this paper, we are analyzing the typical and operational atmospheric Doppler prediction models for the Open-Loop Signal Tracking of radio occultation, in satellite communications. A summary and comparison between these methods will be concluded in the end of this paper. finally we propose a prediction method can be used in national GPS-RO payloads for predicting atmospheric doppler based on combination of Sokolovsky and C.O. Ao methods.

Keywords

Radio occultation

Open loop tracking

Atmospheric doppler

Article Title Persian

مدل‌های پیش‌بینی داپلر اتمسفری در گیرنده GPS-RO برای ردگیری حلقه‌باز

Authors Persian

لیلا محمدی ¹

شروین امیری ²

غلامرضا محمدخانی ²

¹ پژوهشکدة ارتباطات و فناوری اطلاعات، پژوهشگاه ارتباطات و فناوری اطلاعات، تهران، ایران

² پژوهشکدة برق و فناوری اطلاعات، سازمان پژوهشهای علمی و صنعتی ایران، تهران، ایران

Abstract Persian

در این مقاله، ابتدا نهفتگی رادیویی و اهمیت ردگیری سیگنال برای گیرنده‌های GPS-RO شرح داده می‌شود. سپس ردگیری حلقه‌باز به عنوان ابزار توانمند و جایگزین ردگیری‌ حلقه‌بسته، برای دریافت سیگنال‌های متفرقشده GPS، گذرنده از تروپوسفر پایین، معرفی می‌شود. ‌در تحقق ردگیری حلقه‌باز با نرخ پایین، اهمیت مدل‌ داپلر مطرح می‌شود. در این مقاله به سه روش مهم در پیاده سازی مدل داپلر اتمسفری که هم اکنون عملیاتی شده‌اند، پرداخته می‌شود. ابتدا روش سوکولوفسکی، که از روش‌های اولیه و مهم بوده و در گیرنده ROSA به کار می‌رود، تبیین می‌شود. سپس روش سی. اُ. آو که در گیرنده مهم BlackJack تعبیه شده است، مطرح شده و در ادامه روش کریستنسن بیان می‌شود که در گیرنده GRAS عملیاتی شده است. نحوه اعمال ورودی‌های هندسی و اتمسفری در این روش‌ها و دقت آنها بررسی خواهد شد. سپس با بهره‌گیری از دانش به‌دست آمده از نقاط قوت و ضعفاین مدل‌ها، یک مدل ترکیبی برای گیرنده GPS-RO ایرانی به همراه الگوریتم پیاده‌سازی آن مطرح می‌گردد.

Keywords Persian

نهفتگی رادیویی

ردگیری حلقه‌باز

مدل داپلر اتمسفری و هندسی

زاویه شکست

پارامتر اثر

مدل هواشناسی

[1]Ying, Z. and et al., “Temporal Distribution Characteristics of GNSS Ionospheric Occultation Data and its Effects in Earthquake-Ionosphere Anomaly Detection,” Journal of Geodesy and Geodynamics, Vol. 4, Issue 4, 2013, pp. 33-40.
[2]Kunitsyn, V. and et al., Earthquake Prediction Research Using Radio Tomography of the Ionosphere, Universe of Scales: From Nanotechnology to Cosmology, Springer Proceedings in Physics, 2014
[3]Oyama, K.I. and et al., “Modifications of the Ionosphere Prior to Large Earthquakes: Report from the Ionosphere Precursor Study Group,” Official Journal of the Asia Oceania Geosciences Society, Geoscience Letters, Vol. 3,No. 6, 2016.
[4]Amiri, Sh. and Fahami, M., “GPS Radio Occultation Method for Ionosphere TEC Monitoring,” Journal of Space Science and Technology, Vol. 6, No. 2, Summeer 2013, pp. 21-29.
[5]Rocken, C. and et al., “Analysis and Validation of GPS/MET Data in the Neutral Atmosphere,” Journal of Geophysical Research, Vol. 102(D25), No. 29, 1997, pp.849-866.
[6]Ao, C.O. and et al., “Rising and Setting GPS Occultations by use of Open-Loop Tracking,” Journal of Geophysical Research, Vol. 114, Issue D4, 2009.
[7]Marquardt and et al. Validation and Data Quality of CHAMP Radio Occultation Data, in First CHAMP Mission Results for Gravity, Magnetic and Atmospheric Studies, Springer, 2003, pp. 384–396.
[8]Hajj and et al., “CHAMP and SAC-C Atmospheric Occultation Results and Intercomparisons,” Journal of Geophysical Research, Vol. 109, D06109, 2004
[9]Sokolovskiy, S.V., “Tracking Tropospheric Radio Occultation Signals from Low Earth Orbit,”Radio Science, Vol. 36, No. 3,2001, pp.483– 498.
[10]Ao, C.O., “Lower Troposphere Refractivity Bias in GPS Occultation Retrievals,” Journal of Geophysical Research, Vol. 108, No. D18, 2003, p. 4577.
[11]Beyerle, G., Gorbunov, M. E. and Ao, C. O. “Simulation Studies of GPS Radio Occultation Measurements,” Radio Science, Vol. 38, No. 5, 2003, p. 1084.
[12]Tyler, G. L. “Radio Occultation Experiments in the Outer Solar System with Voyager,” Proc. IEEE, 75, 1987, pp. 1404–1431.
[13]Steffes and et. al., “Radio Occultation Studies of the Venusatmosphere with the Magellan Spacecraft, 1.Experiment Description and Performance,” Icarus, Vol. 110, 1994, pp. 71– 78.
[14]Gorbunov, M.E., “Canonical Transform Method for Processing Radio Occultation Data in the Lower Troposphere,” Radio Science, Vol. 37, No. 5, 2002, p.1076.
[15]Jensen et al,”Full spectrum inversion of radio occultation Signals”, Radio Science, Vol. 38, No. 3, 2003, p.1040.
[16]Rec.ITU-RP.453-11;” The Radio Refractive Index: Iits Formula and Refractivity Data,” Recommendationitu-RP. 2003, pp. 453-459.
[17]Kirchengast et al.,”The CIRA86aQ-UoG Model: An Extension of the CIRA-86 Monthly Tables Including Humidity Tables and a Fortran 95 Global Moist Air Climatology Model,” IMG/UoG Techn. Rep. 8, Eur. Space Agency, Paris, France, 1999
[18]Smith, E. K., Weintraub, S. “The Constants in the Equation for Atmospheric Refractive Index at Radio Requencies,” Proc. IRE, 41. 1953
[19]Sela, J.G., “Spectral Modeling at the National Meteorological Center,” Month, Weather Rev., Vol. 108, No. 9, 1980, pp. 1279-1292,
[20]Syndergaard, S., “Modeling the Impact of the Earth’s Oblateness on the Retrieval of Temperature and Pressure Profiles from Limb Sounding,” Journal of Atmospheric and Solar-Terrestrial Physics, Vol. 60, No. 2. 1998, pp. 171-180.
[21]Hajj and et. al., “A Technical Description of Atmospheric Sounding by GPS Occultation,” Journal of Atmospheric and Solar-Terrestrial Physics, Vol. 64, No. 4, 2002, pp. 451– 469.
[22]Notarpietro, R. and et.al., “ROSA: the It zalian Space Agency GPS Radio Occultation Receiver. Signal Tracking Characteristics and Terrestrial Measurement Campaign,” Atmosphere and Climate, 2006, pp 157-168.
[23]Mannucci, J. and et. al., “Radio Occultation Activities At NASA,” CGMS-39 White Paper, 2011.
[24]Christensen et al., “Apparatus and Method for Performing Open Loop Tracking of a Signal,” United States Patent, US 6, 720, 916 B2. 2004