Abstract
Abstract. Some aircraft temperature observations, retrieved through the Aircraft Meteorological Data Relay (AMDAR), suffer from a significant warm bias when comparing observations with numerical weather prediction (NWP) models. In this paper we show that this warm bias of AMDAR temperature can be characterized and consequently reduced substantially. The characterization of this warm bias is based on the methodology of measuring temperature with a moving sensor and can be split into two separate processes. The first process depends on the flight phase of the aircraft and relates to difference of timing, as it appears that the times of measurement of altitude and temperature differ. When an aircraft is ascending or descending, this will result in a small bias in temperature due to the (on average) presence of an atmospheric temperature lapse rate. The second process is related to internal corrections applied to pressure altitude without feedback to temperature observation measurement. Based on NWP model temperature data, combined with additional information on Mach number and true airspeed, we were able to estimate corrections using data over an 18-month period from January 2017 to July 2018. Next, the corrections were applied to AMDAR observations over the period from September 2018 to mid-December 2019. Comparing these corrected temperatures with (independent) radiosonde temperature observations demonstrates a reduction of the temperature bias from 0.5 K to around zero and a reduction of standard deviation of almost 10 %.
Highlights
Upper air observations from aircraft are an important source of information for numerical weather prediction (NWP) (Ingleby et al, 2021)
We discuss the results of correcting Aircraft Meteorological Data Relay (AMDAR) temperature observations by reconstruction of the uncorrected static pressure
In this paper we demonstrated that the AMDAR warm bias can be characterized by two methods of corrections: the first is a timing-related correction, while the second relates to the interconnected nature of pressure, Mach and temperature measurements
Summary
Upper air observations from aircraft are an important source of information for numerical weather prediction (NWP) (Ingleby et al, 2021). In this paper the signature of the temperature bias from aircraft observations retrieved through the Aircraft Meteorological Data Relay (AMDAR) is investigated. These error characteristics of AMDAR temperature observations have been examined in a number of studies. The Mode-S EHS system on its own can be used to derive temperature as described in de Haan (2011) These observations of temperatures are not exploited here; instead the Mach number information and pressure altitude rate measured by an aircraft are used in the characterization. This paper is organized as follows: first we discuss briefly the aircraft sensors used and the origin of the data used to determine pressure and temperature, Mach and true airspeed.
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