951. Velden, Christopher s. and Leslie, Lance M.. The basic relationship between tropical cyclone intensity and the depth of the environmental steering layer in the Australia region. Boston, MA, American Meteorological Society, 1991, pp.98-103. Reprint # 1277.
952.
Velden, Christopher S. and Leslie, Lance M.. The basic relationship between tropical cyclone intensity and the depth of the environmental steering layer in the Australian Region. Weather and Forecasting, Volume: 6, Issue: 2, 1991, pp.244-253. Reprint # 1218.
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953. Velden, Christopher S. and Merrill, Robert T.. Western North Pacific tropical cyclone intensity estimation from NOAA polar orbiting satellite microwave data. Boston, MA, American Meteorological Society, 1990, pp.426-437. Reprint # 2294.
954. Velden, Christopher S. and Merrill, Robert T.. Western North Pacific tropical cyclone intensity estimation from NOAA polar orbiting satellite microwave data. Boston, MA, American Meteorological Society, 1990, pp.426-437. Reprint # 2294.
955.
Velden, Christopher S. and Mills, Graham A.. Diagnosis of upper-level processes influencing an unusually intense extratropical cyclone over southeast Australia. Weather and Forecasting, Volume: 5, Issue: 3, 1990, pp.449-482. Reprint # 1237.
Link to PDF
956.
Velden, Christopher S. and Mills, Graham A.. Diagnosis of upper-level processes influencing an unusually intense extratropical cyclone over southeast Australia. Weather and Forecasting, Volume: 5, Issue: 3, 1990, pp.449-482. Reprint # 1237.
Link to PDF
957. Velden, Christopher S. and Mills, Graham A.. An unusually intense late spring cyclone over Southeast Australia. Boston, MA, American Meteorological Society, 1989, pp.270-275. Reprint # 1136.
958. Velden, Christopher S. and Mills, Graham A.. An unusually intense late spring cyclone over Southeast Australia. Boston, MA, American Meteorological Society, 1989, pp.270-275. Reprint # 1136.
959. Velden, Christopher S. and Olander, Timothy. Experimental high-density wind sets derived from GOES-8 observations during 1995 Atlantic tropical cyclones. Washington, DC, US Department of Commerce, National Oceanic and Atmospheric Administration (NOAA), Office of the Federal Coordinator for Meteorological Services and Supporting Research, 1996, abstract.
960. Velden, Christopher S. and Olander, Timothy. Experimental high-density wind sets derived from GOES-8 observations during 1995 Atlantic tropical cyclones. Washington, DC, US Department of Commerce, National Oceanic and Atmospheric Administration (NOAA), Office of the Federal Coordinator for Meteorological Services and Supporting Research, 1996, abstract.
961. Velden, Christopher S. and Olander, Timothy L.. Bispectral satellite technique for delineating intense convection: Applications to tropical cyclones. Boston, MA, American Meteorological Society, 1998, pp.458-461. Reprint # 2617.
962. Velden, Christopher S. and Olander, Timothy L.. Bispectral satellite technique for delineating intense convection: Applications to tropical cyclones. Boston, MA, American Meteorological Society, 1999, pp.431-434. Reprint # 2529.
963. Velden, Christopher S. and Olander, Timothy L.. Bispectral satellite technique for delineating intense convection: Applications to tropical cyclones. Boston, MA, American Meteorological Society, 1998, pp.458-461. Reprint # 2617.
964. Velden, Christopher S. and Olander, Timothy L.. Bispectral satellite technique for delineating intense convection: Applications to tropical cyclones. Boston, MA, American Meteorological Society, 1999, pp.431-434. Reprint # 2529.
965. Velden, Christopher S. and Sears, J.. Computing deep-tropospheric vertical wind shear analyses for tropical cyclone applications: The methodology matters!. Boston, MA, American Meteorological Society, 2014, Abstract 125.
966. Velden, Christopher S. and Sears, J.. Computing deep-tropospheric vertical wind shear analyses for tropical cyclone applications: The methodology matters!. Boston, MA, American Meteorological Society, 2014, Abstract 125.
967.
Velden, Christopher S. and Sears, John. Computing deep-tropospheric vertical wind shear analyses for tropical cyclone applications: Does the methodology matter?. Weather and Forecasting, Volume: 25, Issue: 5, 2014. Reprint # 7278.
Link to PDF
968.
Velden, Christopher S. and Sears, John. Computing deep-tropospheric vertical wind shear analyses for tropical cyclone applications: Does the methodology matter?. Weather and Forecasting, Volume: 25, Issue: 5, 2014. Reprint # 7278.
Link to PDF
969. Velden, Christopher S. and Smith, W. L.. Quantitative satellite applications: Tropical cyclone intensity monitoring and track forecasting. Boston, MA, American Meteorological Society, 1984, pp.159-162. Reprint # 552.
970. Velden, Christopher S. and Smith, W. L.. Quantitative satellite applications: Tropical cyclone intensity monitoring and track forecasting. Boston, MA, American Meteorological Society, 1984, pp.159-162. Reprint # 552.
971.
Velden, Christopher S. and Smith, William L.. Monitoring tropical cyclone evolution with NOAA satellite microwave observations. Journal of Climate and Applied Meteorology, Volume: 22, Issue: 5, 1983, pp.714-724. Reprint # 212.
Link to PDF
972.
Velden, Christopher S. and Smith, William L.. Monitoring tropical cyclone evolution with NOAA satellite microwave observations. Journal of Climate and Applied Meteorology, Volume: 22, Issue: 5, 1983, pp.714-724. Reprint # 212.
Link to PDF
973. Velden, Christopher S. and Stettner, D.. Improved monitoring of the evolving upper-tropospheric wind fields over the core of tropical cyclones aided by high spatiotemporal resolution GOES-16 atmospheric motion vectors. Boston, MA, American Meteorological Society, 2018, Abstract 245.
974. Velden, Christopher S. and Stettner, D.. Improved monitoring of the evolving upper-tropospheric wind fields over the core of tropical cyclones aided by high spatiotemporal resolution GOES-16 atmospheric motion vectors. Boston, MA, American Meteorological Society, 2018, Abstract 245.
975.
Velden, Christopher S.; Goodman, Brian M. and Merrill, Robert T.. Western North Pacific tropical cyclone intensity estimation from NOAA polar-orbiting satellite microwave data. Monthly Weather Review, Volume: 119, Issue: 1, 1991, pp.159-168. Reprint # 1236.
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