301. Goerss, James S.; Velden, Christopher S. and Hawkins, Jeffrey D.. The impact of UW-CIMSS experimental high-density GOES-8 multispectral winds on NOGAPS forecasts of Atlantic tropical cyclones. Boston, MA, American Meteorological Society, 1996, pp.396-398. Reprint # 2403.
302.
Goerss, James S.; Velden, Christopher S. and Hawkins, Jeffrey D.. The impact of multispectral GOES-8 wind information on Atlantic tropical cyclone track forecasts in 1995, part II: NOGAPS forecasts. Monthly Weather Review, Volume: 126, Issue: 5, 1998, pp.1219-1227. Reprint # 2463.
Link to PDF
303. Goerss, James S.; Velden, Christopher S. and Hawkins, Jeffrey D.. The impact of UW-CIMSS experimental high-density GOES-8 multispectral winds on NOGAPS forecasts of Atlantic tropical cyclones. Boston, MA, American Meteorological Society, 1996, pp.396-398. Reprint # 2403.
304.
Goerss, James S.; Velden, Christopher S. and Hawkins, Jeffrey D.. The impact of multispectral GOES-8 wind information on Atlantic tropical cyclone track forecasts in 1995, part II: NOGAPS forecasts. Monthly Weather Review, Volume: 126, Issue: 5, 1998, pp.1219-1227. Reprint # 2463.
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305.
Griffin, Sarah M. and Velden, Christopher S.. Hazard avoidance products for convectively-induced turbulence in support of high-altitude Global Hawk aircraft missions. Pure and Applied Geophysics, Volume: 176, Issue: 5, 2019, pp.2045-2055. Reprint # 8375.
Link to PDF
306.
Griffin, Sarah M. and Velden, Christopher S.. Hazard avoidance products for convectively-induced turbulence in support of high-altitude Global Hawk aircraft missions. Pure and Applied Geophysics, Volume: 176, Issue: 5, 2019, pp.2045-2055. Reprint # 8375.
Link to PDF
307. Griffin, Sarah M.; Bedka, K. M. and Velden, C. S.. A method for calculating the height of overshooting convective cloud tops using satellite-based IR imager and CloudSat cloud profiling radar observations. Boston, MA, American Meteorological Society, 2016, Abstract 84.
308. Griffin, Sarah M.; Bedka, K. M. and Velden, C. S.. A method for calculating the height of overshooting convective cloud tops using satellite-based IR imager and CloudSat cloud profiling radar observations. Boston, MA, American Meteorological Society, 2016, Abstract 84.
309.
Griffin, Sarah M.; Bedka, Kristopher M. and Velden, Christopher S.. A method for calculating the height of overshooting convective cloud tops using satellite-based IR imager and CloudSat cloud profiling radar observations. Journal of Applied Meteorology and Climatology, Volume: 55, Issue: 2, 2016, pp.479-491. Reprint # 7562.
Link to PDF
310. Griffin, Sarah M.; Bedka, Kristopher M. and Velden, Christopher S.. GOES-R risk reduction research on satellite-derived overshooting tops. US Department of Commerce, National Oceanic And Atmospheric Administration (NOAA), 2015, poster presentation.
311.
Griffin, Sarah M.; Bedka, Kristopher M. and Velden, Christopher S.. A method for calculating the height of overshooting convective cloud tops using satellite-based IR imager and CloudSat cloud profiling radar observations. Journal of Applied Meteorology and Climatology, Volume: 55, Issue: 2, 2016, pp.479-491. Reprint # 7562.
Link to PDF
312. Griffin, Sarah M.; Bedka, Kristopher M. and Velden, Christopher S.. GOES-R risk reduction research on satellite-derived overshooting tops. US Department of Commerce, National Oceanic And Atmospheric Administration (NOAA), 2015, poster presentation.
313. Griffin, Sarah M.; Rozoff, C. M. and Velden, C. S.. Real time probabilistic prediction of tropical cyclone rapid intensification using statistical models enhanced with satellite passive microwave predictors. Boston, MA, American Meteorological Society, 2018, Abstract 264.
314. Griffin, Sarah M.; Rozoff, C. M. and Velden, C. S.. Real time probabilistic prediction of tropical cyclone rapid intensification using statistical models enhanced with satellite passive microwave predictors. Boston, MA, American Meteorological Society, 2018, Abstract 264.
315. Griffin, Sarah M.; Velden, C. S.; Dunion, J. P. and Schumacher, A. B.. Examining trends in satellite-detected overshooting tops as a potential predictor of tropical cyclone genesis. Boston, MA, American Meteorological Society, 2016, Abstract 165.
316. Griffin, Sarah M.; Velden, C. S.; Dunion, J. P. and Schumacher, A. B.. Examining trends in satellite-detected overshooting tops as a potential predictor of tropical cyclone genesis. Boston, MA, American Meteorological Society, 2016, Abstract 165.
317.
Griffin, Sarah M.; Wimmers, Anthony and Velden, Christopher S.. Predicting rapid intensification in North Atlantic and eastern North Pacific tropical cyclones using a convolutional neural network. Weather and Forecasting, Volume: 37, Issue: 8, 2022, pp.1333-1355. Reprint # 8844.
Link to PDF
318.
Griffin, Sarah M.; Wimmers, Anthony and Velden, Christopher S.. Predicting rapid intensification in North Atlantic and eastern North Pacific tropical cyclones using a convolutional neural network. Weather and Forecasting, Volume: 37, Issue: 8, 2022, pp.1333-1355. Reprint # 8844.
Link to PDF
319. Gurka, James J.; Schmit, Timothy J.; Rekevens, Thomas M.; DeMaria, Mark and Velden, Chris. Baseline instruments for the GOES-R series: Providing major improvements to hurricane observations. Washington, DC, US Department of Commerce, National Oceanic and Atmospheric Administration (NOAA), Office of the Federal Coordinator for Meteorology, 2008, abstract; PowerPoint presentation.
320. Gurka, James J.; Schmit, Timothy J.; Rekevens, Thomas M.; DeMaria, Mark and Velden, Chris. Baseline instruments for the GOES-R series: Providing major improvements to hurricane observations. Washington, DC, US Department of Commerce, National Oceanic and Atmospheric Administration (NOAA), Office of the Federal Coordinator for Meteorology, 2008, abstract; PowerPoint presentation.
321.
Halverson, J.; Black, M.; Braun, S.; Cecil, D.; Goodman, M.; Heymsfield, A.; Heymsfield G.; Hood, R.; Krishnamurti, T.; McFarquhar, G.; Mahoney, M. J.; Molinari, J.; Rogers, R.; Turk, J.; Velden, C.; Zhang, D.-L.; Zipser, E. and Kakar, R.. NASA's tropical cloud systems and processes experiment: Investigating tropical cyclogenesis and hurricane intensity change. Bulletin of the American Meteorological Society, Volume: 88, Issue: 6, 2007, pp.867-882. Reprint # 5377.
Link to PDF
322.
Halverson, J.; Black, M.; Braun, S.; Cecil, D.; Goodman, M.; Heymsfield, A.; Heymsfield G.; Hood, R.; Krishnamurti, T.; McFarquhar, G.; Mahoney, M. J.; Molinari, J.; Rogers, R.; Turk, J.; Velden, C.; Zhang, D.-L.; Zipser, E. and Kakar, R.. NASA's tropical cloud systems and processes experiment: Investigating tropical cyclogenesis and hurricane intensity change. Bulletin of the American Meteorological Society, Volume: 88, Issue: 6, 2007, pp.867-882. Reprint # 5377.
Link to PDF
323. Halverson, Jeffrey B.; Hock, Terry; Cole, Hal; Simpson, Joanne; Heymsfield, Gerry; Pierce, Harold; Velden, Chris and Brueske, Kurt. Thermal structure of Hurricane Erin's (2001) core using dropsonde data from 68,000 feet and comparison with AMSU satellite measurements. Boston, MA, American Meteorological Society, 2002, pp.204-205. Reprint # 3854.
324. Halverson, Jeffrey B.; Hock, Terry; Cole, Hal; Simpson, Joanne; Heymsfield, Gerry; Pierce, Harold; Velden, Chris and Brueske, Kurt. Thermal structure of Hurricane Erin's (2001) core using dropsonde data from 68,000 feet and comparison with AMSU satellite measurements. Boston, MA, American Meteorological Society, 2002, pp.204-205. Reprint # 3854.
325.
Harkins, Jeff; Turk, Joe; Richardson, Kim; Bankesrt, Rich; Mitrescu, Christian; Velden, Chris; Herndon, Derrick; Wimmers, Tony; Olander, Tim; Miller, Steve and Kent, John. The near real-time and science study satellite product suite for the Tropical Cyclone Structure (TCS-08) field project. Washington, DC, US Department of Commerce, National Oceanic and Atmospheric Administration (NOAA), Office of the Federal Coordinator for Meteorology, 2009, abstract; poster presentation.
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