Abstract
The High-resolution Infrared Radiation Sounder (HIRS) has been flown on 17 polar-orbiting satellites between the late 1970s and the present day. HIRS applications require accurate characterisation of uncertainties and inter-channel error correlations, which has so far been lacking. Here, we calculate error correlation matrices by accumulating count deviations for sequential sets of calibration measurements, and then correlating deviations between channels (for a fixed view) or views (for a fixed channel). The inter-channel error covariance is usually assumed to be diagonal, but we show that large error correlations, both positive and negative, exist between channels and between views close in time. We show that correlated error exists for all HIRS and that the degree of correlation varies markedly on both short and long timescales. Error correlations in excess of 0.5 are not unusual. Correlations between calibration observations taken sequentially in time arise from periodic error affecting both calibration and Earth counts. A Fourier spectral analysis shows that, for some HIRS instruments, this instrumental effect dominates at some or all spatial frequencies. These findings are significant for application of HIRS data in various applications, and related information will be made available as part of an upcoming Fundamental Climate Data Record covering all HIRS channels and satellites.
Highlights
The High-resolution Infrared Radiation Sounder (HIRS) is a 20-channel radiometer with a heritage dating back to 1975 [1]
A HIRS calibration cycle consists of 40 scanlines, where each scanline is a set of 56 views of Earth, deep space, an Internal Warm Calibration Target (IWCT) or an Internal Cold Calibration Target (ICCT)
We should expect that errors in Cv,l,b,c are either independent between measurements taken at different times, or shared between all measurements within a set of calibration measurements, in which case the error is identical between Cv,l,b,c and Cv,l,c b
Summary
The High-resolution Infrared Radiation Sounder (HIRS) is a 20-channel radiometer with a heritage dating back to 1975 [1] It is used in numerical weather prediction [2], reanalysis [3], and for the retrieval of geophysical properties such as water vapour [4,5] or cloud properties [6]. The FIDUCEO HIRS FCDR contains fully traceable uncertainties per-datum and error covariance information per orbit in an easy to use format [9]. The aforementioned studies all relate to improvements of HIRS for the purpose of climate studies but do not include per-datum traceable uncertainties, and improvements are limited to subsets of channels and mostly to subsets satellites.
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