RFC: 0022
Title | |||
| IDL Data Structure for Fitted ACF data | |||
Author | |||
| R.J.Barnes | |||
Summary | |||
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A description of the IDL data structure used to store Fitted ACF data. | |||
Description | |||
1. IntroductionThe FitACF algorithm is used to derive doppler velocities, spectral widths and powers from the raw ACF data. Within IDL a structure is used to store the fitted ACF data. 2. ConstantsA number of constants are used to define array limits
3. Raw ACF data structure
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fit={FitData, $
revision: {rlstr, major: 0L, $ ; major revision
minor: 0L}, $ ; minor revision
noise: {nfstr, sky: 0.0, $ ; sky noise
lag0: 0.0, $ ; lag-zero power of noise ACF
vel: 0.0}, $ ; velocity from fitting noise ACF
pwr0: fltarr(MAX_RANGE), $ ; lag-zero power
nlag: intarr(MAX_RANGE), $ ; number of points in the fit
qflg: bytarr(MAX_RANGE), $ ; quality flag
gflg: bytarr(MAX_RANGE), $ ; ground scatter flag
p_l: fltarr(MAX_RANGE), $ ; power from lambda fit
p_l_e: fltarr(MAX_RANGE), $ ; power error from lambda fit
p_s: fltarr(MAX_RANGE), $ ; power from sigma fit
p_s_e: fltarr(MAX_RANGE), $ ; power error from sigma fit
v: fltarr(MAX_RANGE), $ ; velocity
v_e: fltarr(MAX_RANGE), $ ; velocity error
w_l: fltarr(MAX_RANGE), $ ; spectral width from lambda fit
w_l_e: fltarr(MAX_RANGE), $ ; spectral width error from lambda fit
w_s: fltarr(MAX_RANGE), $ ; spectral width from sigma fit
w_s_e: fltarr(MAX_RANGE), $ ; spectral width error from sigma fit
sd_l: fltarr(MAX_RANGE), $ ; standard deviation of lambda fit
sd_s: fltarr(MAX_RANGE), $ ; standard deviation of sigma fit
sd_phi: fltarr(MAX_RANGE), $ ; standard deviation of phase fit
x_qflg: bytarr(MAX_RANGE), $ ; XCF quality flag
x_gflg: bytarr(MAX_RANGE), $ ; XCF ground scatter flag
x_p_l: fltarr(MAX_RANGE), $ ; XCF power from lambda fit
x_p_l_e: fltarr(MAX_RANGE), $ ; XCF power error from lambda fit
x_p_s: fltarr(MAX_RANGE), $ ; XCF power from sigma fit
x_p_s_e: fltarr(MAX_RANGE), $ ; XCF power error from sigma fit
x_v: fltarr(MAX_RANGE), $ ; XCF velocity
x_v_e: fltarr(MAX_RANGE), $ ; XCF velocity error
x_w_l: fltarr(MAX_RANGE), $ ; XCF spectral width from lambda fit
x_w_l_e: fltarr(MAX_RANGE), $ ; XCF spectral width error from lambda fit
x_w_s: fltarr(MAX_RANGE), $ ; XCF spectral width from sigma fit
x_w_s_e: fltarr(MAX_RANGE), $ ; XCF spectral width error from sigma fit
phi0: fltarr(MAX_RANGE), $ ; phase determination
phi0_e: fltarr(MAX_RANGE), $ ; phase determination error
elv: fltarr(MAX_RANGE), $ ; angle of arrival estimate
elv_low: fltarr(MAX_RANGE), $ ; lowest estimate of angle of arrival
elv_high: fltarr(MAX_RANGE), $ ; highest estimate of angle of arrival
x_sd_l: fltarr(MAX_RANGE), $ ; XCF standard deviation of lambda fit
x_sd_s: fltarr(MAX_RANGE), $ ; XCF standard deviation of sigma fit
x_sd_phi: fltarr(MAX_RANGE) $ ; XCF standard deviation of phase fit
}
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References
History
2004/11/22 Initial Revision.