Schwerdtfeger Library Publications Database

Results: Found 6542 records (displaying records 4076 through 4100)

4076. Pavolonis, Michael J.; Sieglaff, J. and Heidinger, A. K.. Infrared derived microphysical properties of deep convection. Boston, MA, American Meteorological Society, 2010, Abstract P1.12.

4077. Pavolonis, Michael J.; Sieglaff, Justin and Cintineo, John. Spectrally Enhanced Cloud Objects - A generalized framework for automated detection of volcanic ash and dust clouds using passive satellite measurements: 2. Cloud object analysis and global application. Journal of Geophysical Research-Atmospheres, Volume: 120, Issue: 15, 2015, pp.7842-7870. Reprint # 7478.
PDF Document Link to PDF

4078. Pavolonis, Michael J.; Sieglaff, Justin and Cintineo, John. Spectrally Enhanced Cloud Objects - A generalized framework for automated detection of volcanic ash and dust clouds using passive satellite measurements: 1. Multispectral analysis. Journal of Geophysical Research-Atmospheres, Volume: 120, Issue: 15, 2015, pp.7813-7841. Reprint # 7477.
PDF Document Link to PDF

4079. Pavolonis, Michael J.; Sieglaff, Justin and Cintineo, John. Automated detection explosive volcanic eruptions using satellite-derived cloud vertical growth rates. Earth and Space Science, Volume: 5, Issue: 12, 2018, pp.903-928. Reprint # 8356.
PDF Document Link to PDF

4080. Pavolonis, Michael J.; Sieglaff, Justin and Cintineo, John. Spectrally Enhanced Cloud Objects - A generalized framework for automated detection of volcanic ash and dust clouds using passive satellite measurements: 2. Cloud object analysis and global application. Journal of Geophysical Research-Atmospheres, Volume: 120, Issue: 15, 2015, pp.7842-7870. Reprint # 7478.
PDF Document Link to PDF

4081. Pavolonis, Michael J.; Sieglaff, Justin and Cintineo, John. Spectrally Enhanced Cloud Objects - A generalized framework for automated detection of volcanic ash and dust clouds using passive satellite measurements: 1. Multispectral analysis. Journal of Geophysical Research-Atmospheres, Volume: 120, Issue: 15, 2015, pp.7813-7841. Reprint # 7477.
PDF Document Link to PDF

4082. Pavolonis, Michael J.; Sieglaff, Justin and Cintineo, John. Automated detection explosive volcanic eruptions using satellite-derived cloud vertical growth rates. Earth and Space Science, Volume: 5, Issue: 12, 2018, pp.903-928. Reprint # 8356.
PDF Document Link to PDF

4083. Pavolonis, Michael; Calvert, Corey; Lindstrom, Scott and Gravelle, Chad. Introduction of a new suite of Fog/Low Stratus (FLS) products into NWS operations via the satellite proving ground. Greenbelt, MD, NASA, Goddard Space Flight Center, GOES-R Program Office, 2013, poster presentation.

4084. Pavolonis, Michael; Calvert, Corey; Lindstrom, Scott and Gravelle, Chad. Introduction of a new suite of Fog/Low Stratus (FLS) products into NWS operations via the satellite proving ground. Greenbelt, MD, NASA, Goddard Space Flight Center, GOES-R Program Office, 2013, poster presentation.

4085. Pavolonis, Michael; Hartun, Daniel C. and Sieglaff, Justin. Probabilistic forecasting of severe convection using the temporal evolution of satellite-derived deep convective cloud properties. Raleigh, NC, National Weather Association, 2011, Abstract P1.29.

4086. Pavolonis, Michael; Hartun, Daniel C. and Sieglaff, Justin. Probabilistic forecasting of severe convection using the temporal evolution of satellite-derived deep convective cloud properties. Raleigh, NC, National Weather Association, 2011, Abstract P1.29.

4087. Pavolonis, Michael; Sieglaff, Justin and Cintineo, John. AWG volcanic ash products. Greenbelt, MD, NASA, Goddard Space Flight Center, GOES-R Program Office, 2014, PowerPoint presentation. 64 slides.
PPT Document Link to PPT

4088. Pavolonis, Michael; Sieglaff, Justin and Cintineo, John. Automated volcanic cloud identification, tracking, and characterization using next generation meteorological satellites. Darmstadt, Germany, European Organization for the Exploitation of Meteorological Satellites (EUMETSAT), 2017, Abstract 270.

4089. Pavolonis, Michael; Sieglaff, Justin and Cintineo, John. The development of JPSS volcanic cloud applications. National Oceanic and Atmospheric Administration (NOAA), 2015, PowerPoint presentation. 48 slides.
PDF Document Link to PDF

4090. Pavolonis, Michael; Sieglaff, Justin and Cintineo, John. Automated volcanic cloud identification, tracking, and characterization using next generation meteorological satellites. Darmstadt, Germany, European Organization for the Exploitation of Meteorological Satellites (EUMETSAT), 2017, Abstract 270.

4091. Pavolonis, Michael; Sieglaff, Justin and Cintineo, John. AWG volcanic ash products. Greenbelt, MD, NASA, Goddard Space Flight Center, GOES-R Program Office, 2014, PowerPoint presentation. 64 slides.
PPT Document Link to PPT

4092. Pavolonis, Michael; Sieglaff, Justin and Cintineo, John. The development of JPSS volcanic cloud applications. National Oceanic and Atmospheric Administration (NOAA), 2015, PowerPoint presentation. 48 slides.
PDF Document Link to PDF

4093. Pavolonis, Michael; Sieglaff, Justin and Parker, Andrew. Quantitative volcanic ash monitoring from GOES and GOES-R. Madison, WI, Cooperative Institute for Meteorological Satellite Studies (CIMSS), 2009, Abstract 17.
Abstract Document Link to Abstract

4094. Pavolonis, Michael; Sieglaff, Justin and Parker, Andrew. Quantitative volcanic ash monitoring from GOES and GOES-R. Madison, WI, Cooperative Institute for Meteorological Satellite Studies (CIMSS), 2009, Abstract 17.
Abstract Document Link to Abstract

4095. Pavolonis, Michael; Sieglaff, Justin; Cintineo, John and Bellon, Bill. The Volcanic Cloud Analysis Toolkit (VOLCAT). Madison, WI, University of Wisconsin-Madison, Space Science and Engineering Center, 2015, PowerPoint presentation.

4096. Pavolonis, Michael; Sieglaff, Justin; Cintineo, John and Bellon, Bill. The Volcanic Cloud Analysis Tool (VOLCAT). National Oceanic and Atmospheric Administration (NOAA), 2015, PowerPoint presentation.

4097. Pavolonis, Michael; Sieglaff, Justin; Cintineo, John and Bellon, Bill. The Volcanic Cloud Analysis Toolkit (VOLCAT). Madison, WI, University of Wisconsin-Madison, Space Science and Engineering Center, 2015, PowerPoint presentation.

4098. Pavolonis, Michael; Sieglaff, Justin; Cintineo, John and Bellon, Bill. The Volcanic Cloud Analysis Tool (VOLCAT). National Oceanic and Atmospheric Administration (NOAA), 2015, PowerPoint presentation.

4099. Pavolonis, Michael; Sieglaff, Justin; Cintineo, John; Calvert, Corey; Hubbard, Shane and Bellon, Bill. Multi-sensor satellite algorithm development for volcanic and fog hazards. National Oceanic and Atmospheric Administration (NOAA), 2014, PowerPoint presentation.

4100. Pavolonis, Michael; Sieglaff, Justin; Cintineo, John; Calvert, Corey; Hubbard, Shane and Bellon, Bill. Multi-sensor satellite algorithm development for volcanic and fog hazards. National Oceanic and Atmospheric Administration (NOAA), 2014, PowerPoint presentation.