1026. Velden, Christopher; Majumdar, Sharanya J. and Langland, Rolf. Advanced satellite-derived wind observations, assimilation, and targeting strategies during TCS-08 for developing improved operational analysis and prediction of Western Pacific tropical cyclones. Award No.N00014-08-1-0251. Madison, WI, University of Wisconsin-Madison, Cooperative Institute for Meteorological Satellite Studies (CIMSS), 2011. Call Number: UW SSEC Publication No.11.09.V2. 
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1027. Velden, Christopher; Majumdar, Sharanya J.; Li, Jun; Liu, Hui; Doyle James D. and Hawkins, Jeffrey. Achieving superior tropical cyclone intensity forecasts by improving the assimilation of high-resolution satellite data into mesoscale prediction models. Madison, WI, University of Wisconsin-Madison, Cooperative Institute for Meteorological Satellite Studies (CIMSS), 2010. Call Number: UW SSEC Publication No.10.09.V1. 
 Link to PDF

1028. Velden, Christopher; Majumdar, Sharanya J.; Li, Jun; Liu, Hui; Doyle James D. and Hawkins, Jeffrey. Achieving superior tropical cyclone intensity forecasts by improving the assimilation of high-resolution satellite data into mesoscale prediction models. Madison, WI, University of Wisconsin-Madison, Cooperative Institute for Meteorological Satellite Studies (CIMSS), 2011. Call Number: UW SSEC Publication No.11.09.V1. 
 Link to PDF

1029. Velden, Christopher; Majumdar, Sharanya J.; Li, Jun; Liu, Hui; Doyle James D. and Hawkins, Jeffrey. Achieving superior tropical cyclone intensity forecasts by improving the assimilation of high-resolution satellite data into mesoscale prediction models. Madison, WI, University of Wisconsin-Madison, Cooperative Institute for Meteorological Satellite Studies (CIMSS), 2012. Call Number: UW SSEC Publication No.12.09.V1. 
 Link to PDF

1030. Velden, Christopher; Majumdar, Sharanya J.; Li, Jun; Liu, Hui; Doyle James D. and Hawkins, Jeffrey. Achieving superior tropical cyclone intensity forecasts by improving the assimilation of high-resolution satellite data into mesoscale prediction models. Madison, WI, University of Wisconsin-Madison, Cooperative Institute for Meteorological Satellite Studies (CIMSS), 2013. Call Number: UW SSEC Publication No.13.09.V1. 
 Link to PDF

1031. Velden, Christopher; Majumdar, Sharanya J.; Li, Jun; Liu, Hui; Doyle James D. and Hawkins, Jeffrey. Achieving superior tropical cyclone intensity forecasts by improving the assimilation of high-resolution satellite data into mesoscale prediction models. Madison, WI, University of Wisconsin-Madison, Cooperative Institute for Meteorological Satellite Studies (CIMSS), 2010. Call Number: UW SSEC Publication No.10.09.V1. 
 Link to PDF

1032. Velden, Christopher; Majumdar, Sharanya J.; Li, Jun; Liu, Hui; Doyle James D. and Hawkins, Jeffrey. Achieving superior tropical cyclone intensity forecasts by improving the assimilation of high-resolution satellite data into mesoscale prediction models. Madison, WI, University of Wisconsin-Madison, Cooperative Institute for Meteorological Satellite Studies (CIMSS), 2011. Call Number: UW SSEC Publication No.11.09.V1. 
 Link to PDF

1033. Velden, Christopher; Majumdar, Sharanya J.; Li, Jun; Liu, Hui; Doyle James D. and Hawkins, Jeffrey. Achieving superior tropical cyclone intensity forecasts by improving the assimilation of high-resolution satellite data into mesoscale prediction models. Madison, WI, University of Wisconsin-Madison, Cooperative Institute for Meteorological Satellite Studies (CIMSS), 2012. Call Number: UW SSEC Publication No.12.09.V1. 
 Link to PDF

1034. Velden, Christopher; Majumdar, Sharanya J.; Li, Jun; Liu, Hui; Doyle James D. and Hawkins, Jeffrey. Achieving superior tropical cyclone intensity forecasts by improving the assimilation of high-resolution satellite data into mesoscale prediction models. Madison, WI, University of Wisconsin-Madison, Cooperative Institute for Meteorological Satellite Studies (CIMSS), 2013. Call Number: UW SSEC Publication No.13.09.V1. 
 Link to PDF

1035. Velden, Christopher; Nieman, Steve; Aberson, Sim and Franklin, James. Tracking motions from satellite water vapor imagery: Quantitative applications to hurricane track forecasting. Boston, MA, American Meteorological Society, 1993, pp.193-196. Reprint # 1784. 

1036. Velden, Christopher; Nieman, Steve; Aberson, Sim and Franklin, James. Tracking motions from satellite water vapor imagery: Quantitative applications to hurricane track forecasting. Boston, MA, American Meteorological Society, 1993, pp.193-196. Reprint # 1784. 

1037. Velden, Christopher; Olander, T.; Herndon, D. and Kossin, J.. Reprocessing the 'top ten' most intense historical tropical cyclones in the satellite era using the Advanced Dvorak Technique. Boston, MA, American Meteorological Society, 2016, Abstract 76. 

1038. Velden, Christopher; Olander, T.; Herndon, D. and Kossin, J.. Reprocessing the 'top ten' most intense historical tropical cyclones in the satellite era using the Advanced Dvorak Technique. Boston, MA, American Meteorological Society, 2016, Abstract 76. 

1039. Velden, Christopher; Olander, Timothy; Herndon, Derrick and Kossin, James P.. Reprocessing the most intense historical tropical cyclones in the satellite era using the Advanced Dvorak Technique. Monthly Weather Review, Volume: 145, Issue: 3, 2017, pp.971-983. Reprint # 7876. 
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1040. Velden, Christopher; Olander, Timothy; Herndon, Derrick and Kossin, James P.. Reprocessing the most intense historical tropical cyclones in the satellite era using the Advanced Dvorak Technique. Monthly Weather Review, Volume: 145, Issue: 3, 2017, pp.971-983. Reprint # 7876. 
 Link to PDF

1041. Velden, Christopher; Rabin, Robert; Mecikalski, John; Bedka, Kristopher; Otkin, Jason; Cecil, Daniel; Jones, Thomas and Lang, Timothy. Investigation of mesoscale flow fields in severe storm environments enabled by the development and multiple-application of high-resolution (space and time), research-quality Atmospheric Motion Vector fields derived from GOES-R multi-spectral imagery. NNX1. Madison, WI, University of Wisconsin-Madison, Space Science and Engineering Center, 2018. Call Number: UW SSEC Publication No.18.07.V1. 
 Link to PDF

1042. Velden, Christopher; Rabin, Robert; Mecikalski, John; Bedka, Kristopher; Otkin, Jason; Cecil, Daniel; Jones, Thomas and Lang, Timothy. Investigation of mesoscale flow fields in severe storm environments enabled by the development and multiple-application of high-resolution (space and time), research-quality Atmospheric Motion Vector fields derived from GOES-R multi-spectral imagery. Tec. Madison, WI, University of Wisconsin-Madison, Space Science and Engineering Center, 2016. Call Number: UW SSEC Publication No.16.06.V1. 
 Link to PDF

1043. Velden, Christopher; Rabin, Robert; Mecikalski, John; Bedka, Kristopher; Otkin, Jason; Cecil, Daniel; Jones, Thomas and Lang, Timothy. Investigation of mesoscale flow fields in severe storm environments enabled by the development and multiple-application of high-resolution (space and time), research-quality Atmospheric Motion Vector fields derived from GOES-R multi-spectral imagery. Tec. Madison, WI, University of Wisconsin-Madison, Space Science and Engineering Center, 2017. Call Number: UW SSEC Publication No.17.05.V1. 
 Link to PDF

1044. Velden, Christopher; Rabin, Robert; Mecikalski, John; Bedka, Kristopher; Otkin, Jason; Cecil, Daniel; Jones, Thomas and Lang, Timothy. Investigation of mesoscale flow fields in severe storm environments enabled by the development and multiple-application of high-resolution (space and time), research-quality Atmospheric Motion Vector fields derived from GOES-R multi-spectral imagery. NNX1. Madison, WI, University of Wisconsin-Madison, Space Science and Engineering Center, 2018. Call Number: UW SSEC Publication No.18.07.V1. 
 Link to PDF

1045. Velden, Christopher; Rabin, Robert; Mecikalski, John; Bedka, Kristopher; Otkin, Jason; Cecil, Daniel; Jones, Thomas and Lang, Timothy. Investigation of mesoscale flow fields in severe storm environments enabled by the development and multiple-application of high-resolution (space and time), research-quality Atmospheric Motion Vector fields derived from GOES-R multi-spectral imagery. Tec. Madison, WI, University of Wisconsin-Madison, Space Science and Engineering Center, 2016. Call Number: UW SSEC Publication No.16.06.V1. 
 Link to PDF

1046. Velden, Christopher; Rabin, Robert; Mecikalski, John; Bedka, Kristopher; Otkin, Jason; Cecil, Daniel; Jones, Thomas and Lang, Timothy. Investigation of mesoscale flow fields in severe storm environments enabled by the development and multiple-application of high-resolution (space and time), research-quality Atmospheric Motion Vector fields derived from GOES-R multi-spectral imagery. Tec. Madison, WI, University of Wisconsin-Madison, Space Science and Engineering Center, 2017. Call Number: UW SSEC Publication No.17.05.V1. 
 Link to PDF

1047. Wacker, Robert S. and Velden, C. S.. Correcting for precipitation scattering effects in satellite-based passive microwave tropical cyclone intensity estimates. Boston, MA, American Meteorological Society, 2004, Abstract P2.16. 

1048. Wacker, Robert S. and Velden, C. S.. Correcting for precipitation scattering effects in satellite-based passive microwave tropical cyclone intensity estimates. Boston, MA, American Meteorological Society, 2004, Abstract P2.16. 

1049. Wacker, Robert S.; Velden, Christopher S. and Petty, Grant W.. Toward a correction for precipitation scattering effects in satellite-based passive microwave tropical cyclone intensity estimation. Boston, MA, American Meteorological Society, 2004, pp.78-79. Reprint # 3973. 

1050. Wacker, Robert S.; Velden, Christopher S. and Petty, Grant W.. Toward a correction for precipitation scattering effects in satellite-based passive microwave tropical cyclone intensity estimation. Boston, MA, American Meteorological Society, 2004, pp.78-79. Reprint # 3973.