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16 results on '"Turk, Francis J."'

1. Joint 1DVar retrievals of tropospheric temperature and water vapor from Global Navigation Satellite System radio occultation (GNSS-RO) and microwave radiometer observations.

Author

Wang, Kuo-Nung, Ao, Chi O., Morris, Mary G., Hajj, George A., Kurowski, Marcin J., Turk, Francis J., and Moore, Angelyn W.

Subjects
MICROWAVE radiometers, GLOBAL Positioning System, WATER vapor, SATELLITE radio services, ATMOSPHERIC water vapor, RADIO technology, MICROWAVE radiometry
Abstract

Global Navigation Satellite System radio occultation (GNSS-RO) and microwave radiometry (MWR) are two of the most impactful spaceborne remote sensing techniques for numerical weather prediction (NWP). These two techniques provide complementary information about atmospheric temperature and water vapor structure. GNSS-RO provides high vertical resolution measurements with cloud penetration capability, but the temperature and moisture are coupled in the GNSS-RO retrieval process and their separation requires the use of a priori information or auxiliary observations. On the other hand, the MWR measures brightness temperature (Tb) in numerous frequency bands related to the temperature and water vapor structure but is limited by poor vertical resolution (> 2 km) and precipitation. In this study, we combine these two technologies in an optimal estimation approach, 1D variation method (1DVar), to improve the characterization of the complex thermodynamic structures in the lower troposphere. This study employs both simulated and operational observations. GNSS-RO bending angle and MWR Tb observations are used as inputs to the joint retrieval, where bending can be modeled by an Abel integral and Tb can be modeled by a radiative transfer model (RTM) that takes into account atmospheric absorption, as well as surface reflection and emission. By incorporating the forward operators into the 1DVar method, the strength of both techniques can be combined to bridge individual weaknesses. Applying 1DVar to the data simulated from large eddy simulation (LES) is shown to reduce GNSS-RO temperature and water vapor retrieval biases at the lower troposphere while simultaneously capturing the fine-scale variability that MWR cannot resolve. A sensitivity analysis is also conducted to quantify the impact of the a priori information and error covariance used in different retrieval scenarios. The applicability of 1DVar joint retrieval to the actual GNSS-RO and MWR observations is also demonstrated through combining collocated COSMIC-2 and Suomi-NPP (National Polar-orbiting Partnership) measurements. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Joint 1DVar Retrievals of Tropospheric Temperature and Water Vapor from GNSS-RO and Microwave Radiometer Observations.

Author

Wang, Kuo-Nung, Ao, Chi O., Morris, Mary G., Hajj, George A., Kurowski, Marcin J., Turk, Francis J., and Moore, Angelyn W.

Subjects
MICROWAVE radiometers, WATER vapor, ATMOSPHERIC water vapor, GLOBAL Positioning System, LARGE eddy simulation models, MICROWAVE radiometry, NUMERICAL weather forecasting, MICROWAVE remote sensing
Abstract

Global Navigation Satellite System – Radio Occultation (GNSS-RO) and Microwave Radiometry (MWR) are two of the most impactful spaceborne remote sensing techniques for numerical weather prediction (NWP). These two techniques provide complementary information about atmospheric temperature and water vapor structure. GNSS-RO provides high vertical resolution measurements with cloud penetration capability, but the temperature and moisture are coupled in the GNSS-RO retrieval process and their separation requires the use of a-priori information or auxiliary observations. On the other hand, the MWR measures brightness temperature (Tb) in numerous frequency bands related to the temperature and water vapor structure, but is limited by poor vertical resolution (>2 km) and precipitation. In this study we combine these two technologies in an optimal estimation approach, 1D Variation method (1DVar), to better characterize the complex thermodynamic structures in the lower troposphere. This study employs both simulated and operational observations. GNSS-RO bending angle and MWR Tb observations are used as inputs to the joint retrieval, where bending can be modeled by an Abel integral and Tb can be modeled by a Radiative Transfer Model (RTM) that takes into account atmospheric absorption, and surface reflection and emission. By incorporating the forward operators into the 1DVar method, the strength of both techniques can be combined to bridge individual weaknesses. Applying 1DVar to the data simulated from Large Eddy Simulation (LES) is shown to reduce GNSS-RO temperature and water vapor retrieval biases at lower troposphere, while simultaneously capturing the fine-scale variability that MWR cannot resolve. A sensitivity analysis is also conducted to quantify the impact of the a-priori information and error covariance used in different retrieval scenarios. The applicability of 1DVar joint retrieval to the actual GNSS-RO and MWR observations is also demonstrated through combining collocated COSMIC-2 and Suomi-NPP measurements. [ABSTRACT FROM AUTHOR]

Published
2023
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8. The Joint IPWG/GEWEX Precipitation Assessment

Author

Roca, Rémy, Haddad, Zaid S., Akimoto, Fumie F., Lisa, Alexander, Behrangi, Ali, George, Huffman, Kato, Seiji, Kirstetter, Pierre-Emmanuel, Kubota, Takuji, Kummerow, Chris, Tristan, L’Ecuyer, Levizzani, Vincenzo, Maggioni, Viviana, Massari, Christian, Masunaga, Hirohiko, Schröder, Marc, Tapiador, Francisco J., Turk, Francis J., and Utsumi, Nobuyuki

Subjects
FOS: Physical sciences
Published
2021
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10. Integrated instrument simulator suites for Earth Science

Author

Tanelli, Simone, Tao, Wei-Kuo, Matsui, Toshihisa, Hostetler, Chris, Hair, John, Butler, Carolyn, Kuo, Kwo-Sen, Niamsuwan, Noppasin, Johnson, Michael P, Jacob, Joseph C, Tsang, Leung, Shams, Khawaja, Jaruwatanadilok, Sermsak, Oveisgharan, Shadi, Simard, Marc, and Turk, Francis J

Published
2012

11. JPL Genesis and Rapid Intensification Processes (GRIP) Portal

Author

Knosp, Brian W, Li, P. Peggy, Vu, Quoc A, Turk, Francis J, Shen, Tsae-Pyng J, Hristova-Veleva, Svetla M, Licata, Stephen J, and Poulsen, William L

Subjects
Man/System Technology And Life Support
Abstract

Satellite observations can play a very important role in airborne field campaigns, since they provide a comprehensive description of the environment that is essential for the experiment design, flight planning, and post-experiment scientific data analysis. In the past, it has been difficult to fully utilize data from multiple NASA satellites due to the large data volume, the complexity of accessing NASA s data in near-real-time (NRT), as well as the lack of software tools to interact with multi-sensor information. The JPL GRIP Portal is a Web portal that serves a comprehensive set of NRT observation data sets from NASA and NOAA satellites describing the atmospheric and oceanic environments related to the genesis and intensification of the tropical storms in the North Atlantic Ocean. Together with the model forecast data from four major global atmospheric models, this portal provides a useful tool for the scientists and forecasters in planning and monitoring the NASA GRIP field campaign during the 2010 Atlantic Ocean hurricane season. This portal uses the Google Earth plug-in to visualize various types of data sets, such as 2D maps, wind vectors, streamlines, 3D data sets presented at series of vertical cross-sections or pointwise vertical profiles, and hurricane best tracks and forecast tracks. Additionally, it allows users to overlap multiple data sets, change the opacity of each image layer, generate animations on the fly with selected data sets, and compare the observation data with the model forecast using two independent calendars. The portal also provides the capability to identify the geographic location of any point of interest. In addition to supporting the airborne mission planning, the NRT data and portal will serve as a very rich source of information during the post-field campaign analysis stage of the airborne experiment. By including a diverse set of satellite observations and model forecasts, it provides a good spatial and temporal context for the high-resolution, but limited in space and time, airborne observations.

Published
2012

12. Global Precipitation Measurement: Methods, Datasets and Applications

Author

Tapiador, Francisco, Turk, Francis J, Petersen, Walt, Hou, Arthur Y, Garcia-Ortega, Eduardo, Machado, Luiz, A. T, Angelis, Carlos F, Salio, Paola, Kidd, Chris, Huffman, George J, and De Castro, Manuel

Subjects
Meteorology And Climatology
Abstract

This paper reviews the many aspects of precipitation measurement that are relevant to providing an accurate global assessment of this important environmental parameter. Methods discussed include ground data, satellite estimates and numerical models. First, the methods for measuring, estimating, and modeling precipitation are discussed. Then, the most relevant datasets gathering precipitation information from those three sources are presented. The third part of the paper illustrates a number of the many applications of those measurements and databases. The aim of the paper is to organize the many links and feedbacks between precipitation measurement, estimation and modeling, indicating the uncertainties and limitations of each technique in order to identify areas requiring further attention, and to show the limits within which datasets can be used.

Published
2011

14. Integrated instrument simulator suites for Earth science

Author

Tanelli, Simone, primary, Tao, Wei-Kwo, additional, Matsui, Toshihisa, additional, Hostetler, Chris A., additional, Hair, Johnathan W., additional, Butler, Carolyn, additional, Kuo, Kwo-Sen, additional, Niamsuwan, Noppasin, additional, Johnson, Michael P., additional, Jacob, Joseph C., additional, Tsang, Leung, additional, Shams, Khawaja, additional, Jaruwatanadilok, Sermsak, additional, Oveisgharan, Shadi, additional, Simard, Marc, additional, and Turk, Francis J., additional

Published
2012
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