Soc., 9.2. http://ams.confex.com/ams/pdfpapers/119903.pdf. (2009). 2019).

While this publication broadly covers the whole of aviation meteorology, less information on Polar flight conditions is noted, although major issues related to cold temperature and snow conditions, as well as ice fog, are discussed extensively. Linden, P. F., & Simpson, J. E. (1985).

Orf, L. G., & Anderson, J. R. (1999). Importance And Scope Of Meteorology Almost all social, industrial, agricultural, commercial, transports etc. Journal of Applied Meteorology Climatology,

Attenuation-based estimates of rainfall rates aloft with vertically pointing Ka-band radars. ABI cloud type/phase algorithm theoretical basis document. Nowcasting with INCA during SNOW-V10. Whiteman, D. N., Melfi, S. H., & Ferrare, R. A. Observations of the boundary layer near tornadoes and in supercells using a mobile, collocated, pulsed doppler lidar and radar. NASA/TM—2005-213591. Dodson, M. G. (2005).

https://doi.org/10.1007/s00024-018-1787-z.

Weather Forecasting, Bulletin American Meteorology Society. Heymsfield, A. J., & Sabin, R. M. (1993). Han, Y., Snider, J. 10, 528–544. Passive ground-based remote sensing of atmospheric temperature, water vapor, and cloud liquid water profiles by a frequency synthesized microwave radiometer.

19, 71–78. Blending a probabilistic nowcasting method with a high-resolution numerical weather prediction ensemble for convective precipitation forecasts. 19, 301–309. Bulletin American Meteorology Society, Bravin, M., Strapp, J. W., & Mason, J. Weather Forecasting, 22, 222. https://doi.org/10.1175/jtech-d-17-0225.1. (1986). Weather and Forecasting, Supercooled liquid water content profiling case studies with a new vibrating wire sonde compared to a ground-based microwave radiometer. Schumann, U. An introduction to NCEP SREF aviation project. Thompson, G., Politovich, M. K., & Rasmussen, R. M. (2017). 81, 745–755. http://www.nwas.org/ej/pdf/2008-EJ3.pdf. Journal of Atmospheric Science, Wilson, J. W., & Wakimoto, R. M. (1982). 48, 1411–1421. Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations. Dutton, J. 52, 2871–2886. Isaac, G. A., Bailey, M., Boudala, F., Burrows, W., Cober, S. G., Crawford, R. T., et al. Part I: Mean-flow variability. Numerical simulations of an inversion fog event in the salt lake valley during the MATERHORN-fog field campaign. Journal of Wind Engineering and Industrial Aerodynamics, Automated meteorological reports from commercial aircraft. Detecting Clouds Associated with Jet Engine Ice Crystal Icing. A multi-sensor freezing drizzle algorithm for the automated surface observing system. AWIPS CAVE-D2D user’s manual: AWIPS II operational build 13.4.1. Evaluation of regional aircraft observations using TAMDAR. Griffin, S. M., & Velden, C. S. (2019). These include ground-based operations that are related to adverse effect of frost, ice, snow, and visibility on aircraft performance and in-flight icing and turbulence. https://doi.org/10.1007/s00024-018-1882-1. Thermodynamic and liquid profiling during the 2010 Winter Olympics. Perrie, W., Zhang, W., Bourassa, M., Shen, H., & Vachon, P. W. (2008). https://doi.org/10.1002/met.1388. Multi-radar multi-sensor (MRMS) severe weather and aviation products: initial operating capabilities. Simulations of contrail optical properties and radiative forcing for various crystal shapes. (2012). 21, 1150–1152.

46, 1141–1168. Probabilistic visibility forecasting using bayesian model averaging. In US Naval Academy Technical Report. Bulletin American Meteorology Society, 925–930). Weather Forecasting, Evaluations of upper-level turbulence diagnostics performance using the Graphical Turbulence Guidance (GTG) system and pilot reports (PIREPs) over East Asia.

52, 1001–1033. (2014). 164, 1283–1301.

http://ams.confex.com/ams/pdfpapers/131782.pdf. Browning, K. A. Comparison of crew exploration vehicle (CEV) tests in two supersonic wind tunnels. 26, 2353–2365. 2019b) can be used to test aircraft parts and pieces, but these also need to be validated using real flight environments. Ismail Gultepe. On the life cycle of individual contrails and contrail cirrus. Environ.

Nature, Meteorological Applications,

Pearson, J. M., & Sharman, R. D. (2017). A., Hansen, B., Platnick, S., Taylor, P., et al. Rasmussen, R., Dixon, M., Vasiloff, S., Hage, F., Knight, S., Vivekanandan, J., et al. https://doi.org/10.1007/s00024-012-0547-8.

National mosaic and multi-sensor QPE (NMQ) system: Description, results, and future plans. Meteorological Applications, NOAA/NESDIS/Center for Satellite Applications and Research (STAR), p. 60. 30, 1469–1489. Characteristics of winter-precipitation-related transportation fatalities in the United States. Stobie, J., Moosakhanian, A., Jackson, P., & Brown, W. N. (2008). Rep., p. 65. 26, 166–183. Pure and Applied Geophysics. Kelsch, M., & Wharton, L. (1996).
The GOES-R proving ground: Accelerating user readiness for the next-generation geostationary environmental satellite system. http://www.windtech-international.com/editorial-features/understanding-ensemble-prediction. 21, 268–287. NTSB (2010). A local ensemble prediction system for fog and low clouds: Construction, bayesian model averaging calibration, and validation. 13, 677–685. (1984). NOAA, 2012: NWSChat Live User Manual, p. 12. 134, 23–47. Upscale Error growth in a high-resolution simulation of a summertime weather event over Europe. Numerical simulations of an isolated microburst. Intercomparison of in-flight icing algorithms. (2005). Gultepe, I., & Isaac, G. A. Introducing the new generation of chinese geostationary weather satellites, fengyun-4. Journal of Atmospheric Science, Combining microwave radiometer and wind profiler radar measurements for high-resolution atmospheric humidity profiling. (2004). Remote sensing of clouds and fog with a 1.4-mm radar. An index of clear-air turbulence. (1992). Journal of Atmosphere Oceanic Technology, Synoptic-scale environments associated with high plains severe thunderstorms. Climatic wind tunnel tests are also important for simulating aircraft aerodynamic conditions that had been summarized by many others (Dodson 2005; Tomek et al. Rasmussen, R., Baker, B., Kochendorfer, J., Meyers, T., Landolt, S., Fischer, A. P., et al. A comparison of ground and satellite observations of cloud cover. Eddy dissipation rates in thunderstorms estimated by Doppler Radar in relation to aircraft in situ measurements.

Classification of precipitation types during transitional winter weather using the RUC model and polarimetric radar retrievals. Teixeira, J., et al. (1989). (2019), convection, and pollution-dust, which also play important roles for aviation operations. Hansen, B., Gultepe, I., & Ling, A. Remote Sensing of Environment, Berndt, E., Elmer, N., Schultz, L., & Molthan, A. Journal of Atmospheric Science, (2018). Ice-phase precipitation. 47, 3072–3088. Aerodynamic and aeroacoustic wind tunnel testing of the Orion spacecraft. Thobois, L., Cariou, J. P., & Gultepe, I. Figure 1 shows an icing event that occurred during an aircraft icing project, which took place in Eastern Canada (a) (Isaac et al. Radio acoustic sounding using an FM CW radar. A. Aircraft icing environment in low ceiling conditions near Washington, D.C. Req 21190 with the Depart. (2016). Sharman, R., & Pearson, J. M. (2017). Dynamical characteristics of cirrus clouds from aircraft and radar observations in micro and meso-gamma scales. (2007). 131, 3477–3492.

Wulfmeyer, V. (1999). Vislocky, R. L., & Fritsch, J. M. (1995). Journal of Atmosphere Oceanic Technology, Investigation of turbulent processes in the lower troposphere with water vapor DIAL and radar–RASS. https://doi.org/10.1007/s00024-012-0553-x. Applied Optics, NASDAC Review of National Transportation Safety Board (NTSB) weather-related accidents (2003–2007). Roquelaure, S., & Bergot, T. (2007). High-resolution atmospheric sensing of multiple atmospheric variables using the DataHawk small airborne measurement system. NTSB.

Hazard avoidance products for convectively-induced turbulence in support of high-altitude global hawk aircraft missions. (2018). Harrington, J. Y., Sulia, K., & Morrison, H. (2013b). Turner, J., & Warren, D. E. (1989). In this topical special issue, the importance of UAVs for future atmospheric research has also been emphasized for high level and low-level flight conditions and weather research.
volume 176, pages1863–1867(2019)Cite this article. Menzel, W. P., Schmit, T. J., Zhang, P., & Li, J. (2007b). Gerz, T., Holzäpfel, F., Gerling, W., Scharnweber, A., Frech, M., Wiegele, A., et al. Observations of water vapor by ground-based microwave radiometers and Raman lidar. Wind shear and turbulence conditions can also be critical for aircraft flight conditions, as clear air turbulence (CAT) can be reported anywhere during a flight path. (1992). 86, 1079–1096.

Summary of convective storm initiation and evolution during IHOP: Observational and modeling perspective. 25, 501–518. Weather Forecasting, Pure and Applied Geophysics. https://doi.org/10.1007/s00024-018-1770-8. 8, 11987–12023. (2011). (2006). Air Traffic Control Quarterly,

Journal of Applied Meteorology Climatology, Evaluating and improving NWP forecast models for the future: How the needs of offshore wind energy can point the way.