Evaluation of laser heterodyne radiometry for numerical weather prediction applications

Smith, F. B.; Havemann, Stephan; Hoffmann, Alex; Bell, William; Weidmann, Damien; Newman, Stuart M.

doi:10.1002/qj.3365

Cited by 11 publications

(9 citation statements)

References 36 publications

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“…Much of the theoretical background of the Optimal estimation method (OE) can be found in detail in Rodgers (2000) [21]. This theory has been used in many other information content studies [22][23][24]. In this section, the Bayesian framework of atmospheric inverse problems and the formulation used for the information content analysis will be described.…”

Section: Methodsmentioning

confidence: 99%

“…The line-HT-FRTC has been used to calculate the analytic Jacobians for temperature and humidity. The HT-FRTC model has been used in several other airborne and spaceborne remote sensing studies (recently, it has been used for investigating a new high-resolution infrared instrument, Laser Heterodyne Radiometer (LHR) for numerical weather prediction application applications [24]. The line-HT-FRTC model has also been compared and validated with other radiative transfer models [32].…”

Section: Radiative Transfer Modelmentioning

confidence: 99%

“…The matrix is complex in structure and it is the combination of background error standard deviation and vertical error correlations. It is an important component of the analysis as the information content will be calculated with respect to the background information [23][24][25][26][27][28][29][30][31][32][33]. As this study is mainly focused on temperature and water vapour measurements, the matrix used here only comprises of temperature ( ) and humidity ( ) errors.…”

Section: Background Error-covariance Matricesmentioning

confidence: 99%

See 2 more Smart Citations

Information content analysis for a novel TES-based hyperspectral microwave atmospheric sounding instrument

Dongre

Havemann

Hargrave

et al. 2018

Remote Sensing of Clouds and the Atmosphere XXIII

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In context of numerical weather prediction (NWP), increased usage of satellites radiance observations from passive microwave sensors have brought significant improvements in the forecast skills. In the infrared spectral region, hyperspectral sounder instruments such as IASI have already benefitted the NWP assimilation systems, but they are useful only under clear sky conditions. Currently, microwave instruments are providing wealth of information on clouds, precipitation and surface etc., but only with limited number of channels. Furthermore, due to limited number of channels and with poor signal-to-noise ratio, existing passive microwave sensors have very poor resolution and accuracy.We are currently developing a new microwave instrument concept, based on superconducting filterbank spectrometers, which will enable high spectral resolution observations of atmospheric temperature and humidity profiles across the microwave/sub-millimeter wavelength region with photon-noise-limited sensitivity. This study aims at investigating the information content on temperature and water-vapour that could be provided by such a hyperspectral microwave instrument under clear sky-conditions. Here, we present a new concept of Transition Edge Sensors (TESs)-based hyperspectral microwave instrument for atmospheric sounding applications. In this study, for assessing the impact of hyperspectral sampling in microwave spectral region in clear sky-conditions, we have estimated the information content as standard figure of merit called as degrees of freedom for signal (DFS). The DFS for a set of temperature and humidity sounding channels (50-60 GHz, 118GHz and 183 GHz) have been analyzed under the linear optimal estimation theory framework.

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Section: Methodsmentioning

confidence: 99%

Section: Radiative Transfer Modelmentioning

confidence: 99%

Section: Background Error-covariance Matricesmentioning

confidence: 99%

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Information content analysis for a novel TES-based hyperspectral microwave atmospheric sounding instrument

Dongre

Havemann

Hargrave

et al. 2018

Remote Sensing of Clouds and the Atmosphere XXIII

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“…Out of the eight profiles, profile 1 is the US standard atmosphere and seven of these profiles (Profile 2 to 8) have been extracted directly from the Met Office UM in March 2012. These profiles have been used in recent studies in [26,29]. The background error-covariance matrix was constructed using a randomisation method.…”

Section: End-to-end Simualtion Settings and Inputsmentioning

confidence: 99%

“…The HT-FRTC has been applied across the EM spectrum in a number of previous studies, both in the infrared [20][21][22][23] and in the short-wave and part of the ultraviolet [24,25]. The HT-FRTC has been used to evaluate different configurations of an infrared satellite radiometer concept based on laser heterodyne technology [26]. Using the HT-FRTC, the EIPS framework becomes applicable to any passive spectral sensor from the ultraviolet (UV) to the microwave (MW).…”

Section: Introductionmentioning

confidence: 99%

End-to-End Instrument Performance Simulation System (EIPS) Framework: Application to Satellite Microwave Atmospheric Sounding Systems

et al. 2019

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This article presents a generic flexible framework for an End-to-end Instrument Performance Simulation System (EIPS) for satellite atmospheric remote sensing instruments. A systematic process for developing an end-to-end simulation system based on Rodgers’ atmospheric observing system design process has been visualised. The EIPS has been developed to support the quantitative evaluation of new satellite instrument concepts in terms of performance simulations, design optimisation, and trade-off analysis. Important features of this framework include: fast radiative transfer simulation capabilities (fast computation and line-by-line like simulations), applicability across the whole electromagnetic (EM) spectrum and a number of integrated retrieval diagnostics. Because of its applicability across the whole EM spectrum, the framework can be usefully applied to synergistic atmospheric retrieval studies. The framework is continually developing and evolving, and finding applications to support and evaluate emerging instrument and mission concepts. To demonstrate the framework’s flexibility in relation to advanced sensor technologies in the microwave range, a novel superconducting transition edge sensor (TES) -based multi-spectral microwave instrument has been presented as an example. As a case study, the performance of existing multi-spectral-type microwave instruments and a TES-technology-based multi-spectral microwave instrument has been simulated and compared using the developed end-to-end simulation framework.

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Improved laser measurement using advanced techniques: A review

Liu

Wang

et al. 2021

Micro & Optical Tech Letters

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Laser measurement technique has been widely explored and applied in various fields in recent years due to its advantages of high measurement precision and resolution. However, applications in frontier fields such as MEMS motion measurement and robotics control pose have requirement for higher precision and resolution, which promote further studies in improving the performance of this technique. Many advanced techniques have been proposed and applied in the laser measurement system to optimize its performance, and the optimized measurement system has found its way in state-of-the-art applications. In this invited paper, we focus on the latest investigations and new applications of the improved laser measurement methods, especially present recent research works regarding the laser triangulation measurement and the laser heterodyne vibration measurement. At the end, we have discussed further developments and challenges of laser measurement technique.

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Evaluation of laser heterodyne radiometry for numerical weather prediction applications

Cited by 11 publications

References 36 publications

Information content analysis for a novel TES-based hyperspectral microwave atmospheric sounding instrument

Information content analysis for a novel TES-based hyperspectral microwave atmospheric sounding instrument

End-to-End Instrument Performance Simulation System (EIPS) Framework: Application to Satellite Microwave Atmospheric Sounding Systems

Improved laser measurement using advanced techniques: A review

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