1. Lewis, William E.; Olander, Timothy L.; Velden, Christopher S.; Rozoff, Christopher and Alessandrini, Stefano. Analog ensemble methods for improving satellite-based intensity estimates of tropical cyclones. Atmosphere, Volume 12, Issue 7, 2021, pp.830. Reprint # 8711.
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2. Olander, Timothy; Wimmers, Anthony; Velden, Christopher and Kossin, James P. Investigation of machine learning using satellite-based advanced Dvorak technique analysis parameters to estimate tropical cyclone intensity. Weather and Forecasting, Volume 36, Issue 6, 2021, 2161–2186. Reprint # 8748.
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3. Courtney, J.; Burton, A.; Olander, T.; Ritchie, E.; Velden, C. and Stark, C. Towards an objective historical tropical cyclone dataset for the Australian region. Tropical Cyclone Research and Review, Volume 8, Issue 4, 2020. Reprint # 8475.
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4. Kossin, James P.; Knapp, Kenneth R.; Olander, Timothy L. and Velden, Christopher S. Global increase in major tropical cyclone exceedance probability over the past four decades. Proceedings of the National Academy of Sciences of the United States of America, Volume 117, Issue 22, 2020, pp.11975-11980. Reprint # 8535.
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5. Olander, Timothy L. and Velden, Christopher S. The Advanced Dvorak Technique (ADT) for estimating tropical cyclone intensity: update and new capabilities. Weather and Forecasting, Volume 34, Issue 4, 2019, pp.905-922. Reprint # 8401.
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| 6. Velden, Christopher S.; Schumacher, A. B.; Knaff, J. A.; Folmer, M. J.; Olander, T.; Lindsey, D. T.; Miller, S. D.; Griffin, S. M.; Dunion, J. P.; DeMaria, M.; Brennan, M. J. and Beven, J. L. GOES-16: Much improved 'glasses' to view the tropics. Conference on Hurricanes and Tropical Meteorology, 33rd, Ponte Vedra, FL, 16-20 April 2018. American Meteorological Society, Boston, MA, 2018, Abstract 244. |
| 7. Velden, Christopher S.; Olander, T.; Burton, A.; Courtney, J.; Ritchie, E. A.; Stark, C. and Tyo, S. J. A reanalysis of Australian region tropical cyclones in the geostationary satellite era. Part 1: Intensity, using the objective Advanced Dvorak Technique (ADT). Conference on Hurricanes and Tropical Meteorology, 33rd, Ponte Vedra, FL, 16-20 April 2018. American Meteorological Society, Boston, MA, 2018, Abstract 246. |
| 8. Olander, Timothy and Velden, C. The UW-CIMSS Advanced Dvorak Technique (ADT) - current status and future upgrades. Conference on Hurricanes and Tropical Meteorology, 33rd, Ponte Vedra, FL, 16-20 April 2018. American Meteorological Society, Boston, MA, 2018, Abstract 247. |
| 9. Stark, Clair; Ritchie, E. A.; Tyo, S. J.; Burton, A.; Courtney, J.; Velden, C. S. and Olander, T. A reanalysis of Australian region tropical cyclones in the geostationary satellite era. Part 2: Wind radii parameters using the Deviation Angle Variance Technique (DAV-T). Conference on Hurricanes and Tropical Meteorology, 33rd, Ponte Vedra, FL, 16-20 April 2018. American Meteorological Society, Boston, MA, 2018, Abstract 256. |
10. Magnusson, Linus; Dahoui, Mohamed; Velden, Christopher S. and Olander, Timothy L. A fresh look at tropical cyclone intensity estimates. ECMWF Newsletter, Volume 152, 2017, pp.14-15. Reprint # 8011.
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11. Velden, Chris; Hoover, Brett; Herndon, Derrick; Wimmers, Anthony; Olander, Timothy; Hawkins, Jeff; Bankert, Rich; Cossuth, Josh and Langland, Rolf. Satellite-based applications to benefit Navy tropical cyclone analysis and numerical model forecasts. Final report on grant NRL BAA-N00173-02 for the period 1 May 2013-30 March 2017. University of Wisconsin-Madison, Space Science and Engineering Center, Cooperative Institute for Meteorological Satellite Studies, Madison, WI, 2017. Call Number: UW SSEC Publication No.17.04.V1.
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12. 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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| 13. Evans, Clark; Olander, T. L.; Velden, C. S. and Hart, R. E. A proposed adjustment for the Advanced Dvorak Technique during extratropical transition. Conference on Hurricanes and Tropical Meteorology, 32nd, San Juan, Puerto Rico, 17-22 April 2016. American Meteorological Society, Boston, MA, 2016, Abstract 17C.3. |
| 14. Olander, Timothy L. and Velden, C. S. The current status of the UW-CIMSS Advanced Dvorak Technique (ADT). Conference on Hurricanes and Tropical Meteorology, 32nd, San Juan, Puerto Rico, 17-22 April 2016. American Meteorological Society, Boston, MA, 2016, Abstract 75. |
| 15. 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. Conference on Hurricanes and Tropical Meteorology, 32nd, San Juan, Puerto Rico, 17-22 April 2016. American Meteorological Society, Boston, MA, 2016, Abstract 76. |
| 16. Olander, Timothy L. and Velden, C. S. The UW-CIMSS Advanced Dvorak Technique (ADT). Conference on Satellite Meteorology, Oceanography and Climatology, 21st, Madison, WI, 15-19 August 2016. American Meteorological Society, Boston, MA, 2016, Abstract 93. |
| 17. Velden, Christopher S.; Olander, T. L.; Herndon, D. C. and Kossin, J. P. Reprocessing the 'top ten' most intense historical tropical cyclones in the satellite era using the Advanced Dvorak Technique. Conference on Satellite Meteorology, Oceanography and Climatology, 21st, Madison, WI, 15-19 August 2016. American Meteorological Society, Boston, MA, 2016, Abstract 63. |
| 18. Velden, Christopher; Herndon, Derrick and Olander, Timothy. Estimating tropical cyclone intensity in the GOES-R/JPSS era. 2015 NOAA Satellite Science Week, Boulder, CO, 23-27 February 2015. US Department of Commerce, National Oceanic And Atmospheric Administration (NOAA), 2015, poster presentation. |
19. Manion, Alexander; Evans, Clark; Olander, Timothy L.; Velden, Christopher S. and Grasso, Lewis D. An evaluation of advanced Dvorak Technique-derived tropical cyclone intensity estimates during extratropical transition using synthetic satellite imagery. Weather and Forecasting, Volume 30, Issue 4, 2015, 984–1009. Reprint # 7441.
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| 20. Manion, Alex; Evans, C.; Sears, J.; Velden, C. S. and Olander, T. L. An evaluation of Advanced Dvorak Technique-derived intensity estimate errors and biases during the extratropical transition of tropical cyclones. Conference on Weather Analysis and Forecasting, 26th, and Conference on Numerical Weather Prediction, 22nd, Atlanta, GA, 2-6 February 2014. American Meteorological Society, Boston, MA, 2014, Abstract 8.6. |
21. Velden, Chris; Olander, Tim and Daniels, Jaime. Winds Application Team: Hurricane Intensity Estimation (HIE) algorithm. AWG Validation Workshop, 2nd, College Park, MD, 9-10 January 2014. NASA, Goddard Space Flight Center, GOES-R Program Office, Greenbelt, MD, 2014, PowerPoint presentation. 18 slides,
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| 22. Olander, Timothy L.; Kossin, J. P.; Velden, C. S. and Knapp, K. R. Employing the Advanced Dvorak Technique to deduce historical trends in global tropical cyclone intensity. Conference on Hurricanes and Tropical Meteorology, 31st, San Diego, CA, 31 March-4 April 2014. American Meteorological Society, Boston, MA, 2014, Abstract 29. |
| 23. Olander, Timothy and Velden, C. New features and capabilities of the Advanced Dvorak Technique (ADT). Conference on Hurricanes and Tropical Meteorology, 31st, San Diego, CA, 31 March-4 April 2014. American Meteorological Society, Boston, MA, 2014, Abstract 9C.1. |
| 24. Sears, John; Velden, C. S.; Olander, T. L. and Cossuth, J. Automated tropical cloud cluster tracking and analysis as a front-end to the ADT. Conference on Hurricanes and Tropical Meteorology, 31st, San Diego, CA, 31 March-4 April 2014. American Meteorological Society, Boston, MA, 2014, Abstract 9C.2. |
| 25. Manion, Alex; Evans, C.; Olander, T. L. and Velden, C. S. An evaluation of Advanced Dvorak Technique-derived intensity estimate errors and biases during extratropical transition utilizing synthetic satellite imagery. Conference on Hurricanes and Tropical Meteorology, 31st, San Diego, CA, 31 March-4 April 2014. American Meteorological Society, Boston, MA, 2014, Abstract 13C.2. |