Digital Signal Processing Reference
In-Depth Information
Dai A, Wang J (1999) Diurnal and semidiurnal tides in global surface pressure fields. J Atmos Sci
56:3874-3891
Dai A, Wang J, Ware RH, Van Hove T (2002) Diurnal variation in water vapor over North America
and its implications for sampling errors in radiosonde humidity. J Geophys Res 107(D10):4090.
doi:
10.1029/2001JD000642
Davis JL, Herring TA, Shapiro I, Rogers A, Elgered G (1985) Geodesy by radio interfer-
ometry effects of atmospheric modeling errors on estimates of baseline length. Radio Sci
20(6):1593-1607
Deblonde G, Macpherson S, Mireault Y et al (2005) Evaluation of GPS precipitable water over
Canada and the IGS network. J Appl Meteorol 44(1):153-166
Duan J, Bevis M, Fang P et al (1996) GPS meteorology: direct estimation of the absolute value of
precipitable water. J Appl Meteorol 35:830-838
Emardson TR, Elgered G, Johansson JM (1998) Three months of continuous monitoring of
atmospheric water vapor with a network of GPS receivers. J Geophys Res 103:1807-1820
Feng K, Zhang J, Zhang Y, Yang Z, Chao W (1978) The numerical calculation method. National
Defense Industry Press, Beijing, 311 pp
Haase J, Ge M, Vedel H, Calais E (2003) Accuracy and variability of GPS tropospheric delay mea-
surements of water vapor in the western Mediterranean. J Appl Meteorol 42(11):1547-1568
Hagemann S, Bengtsson L, Gendt G (2003) On the determination of atmospheric water vapor from
GPS measurements. J Geophys Res 108(D21):4678. doi:
10.1029/2002JD003235
Herring TA (1992) Modeling atmospheric delays in the analysis of space geodetic data. In:
De Munck JC, Spoelstra TATh (eds) Refraction of transatmospheric signals in Geodesy.
Netherland Geodetic Commission Publications in Geodesy, 36, pp 157-164
Humphreys TE, Kelley MC, Huber N, Kintner PM Jr (2005) The semidiurnal variation in GPS-
derived zenith neutral delay. Geophys Res Lett 32:L24801. doi:
10.1029/2005GL024207
Jin SG, Park PH (2005) A new precision improvement of zenith tropospheric delay estimates by
GPS. Curr Sci 89(6):997-1000
Jin SG, Li Z, Cho J (2008) Integrated water vapor field and multi-scale variations over China from
GPS measurements. J Appl Meteorol Clim 47:3008-3015. doi:
10.1175/2008JAMC1920.1
Jin
SG,
Luo
OF,
Ren
C
(2010)
Effects
of
physical
correlations
on
long-distance
GPS
positioning
and
zenith
tropospheric
delay
estimates.
Adv
Space
Res
46(2):190-195.
King RW, Bock Y (1999) Documentation for the GAMIT GPS analysis software. Massachusetts
Institute of Technology, Cambridge, MA
Manuel H, Juan J, Sanz J et al (2001) A new strategy for real-time integrated water vapor
determination in WADGOPS networks. Geophys Res Lett 28(17):3267-3270
Marini JW (1972) Correction of satellite tracking data for an arbitrary tropospheric profile. Radio
Sci 7(2):223-231
Niell AE (1996) Global mapping functions for the atmospheric delay at radio wavelengths.
J Geophys Res 101(B2):3227-3246
Niell AE, Coster AJ, Solheim FS, Mendes VB, Toor PC, Langley RB, Upham CA (2001)
Comparison of measurements of atmospheric wet delay by radiosonde, water vapor radiometer,
GPS, and VLBI. J Atmos Ocean Technol 18:830-850
Pramualsakdikul S, Haas R, Elgered G, Scherneck HG (2007) Sensing of diurnal and semi-diurnal
variability in the water vapor content in the tropics using GPS measurements. Meteorol Appl
14:403-412. doi:
10.1002/met.39
Saastamoinen J (1972) Atmospheric correction for the troposphere and stratosphere in radio
ranging of satellites. In: The use of artificial satellites for geodesy, Geophysical monograph
series 15. American Geophysical Union, Washington, pp 247-251
Snajdrova K, Boehm J, Willis P, Haas R, Schuh H (2005) Multi-technique comparison of
tropospheric zenith delays derived during the CONT02 campaign. J Geod 79(10-11):613-623.
Tregoning P, Boers R, O'Brien D (1998) Accuracy of absolute precipitable water vapor estimates
from GPS observations. J Geophys Res 103(28):701-710
Search WWH ::
Custom Search