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. Link to PDF |
| 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. Link to PDF |
| 3. 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. Link to PDF |
| 4. 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. Link to PDF |
| 5. 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. Link to PDF |
| 6. 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. Link to PDF |
| 7. 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. Link to PDF |
| 8. 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. Link to PDF |
| 9. 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. Link to PDF |
| 10. 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. Link to PDF |
| 11. 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. Link to PDF |
| 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. Link to PDF |
| 13. 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. Link to PDF |
| 14. 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 |
| 15. 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. Link to PDF |
| 16. 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. Link to PDF |
| 17. Kossin, James P.; Olander, Timothy L. and Knapp, Kenneth R. Trend analysis with a new global record of tropical cyclone intensity. Journal of Climate, Volume 26, Issue 24, 2013, 9960–9976. Reprint # 7115. Link to PDF |
| 18. Kossin, James P.; Olander, Timothy L. and Knapp, Kenneth R. Trend analysis with a new global record of tropical cyclone intensity. Journal of Climate, Volume 26, Issue 24, 2013, 9960–9976. Reprint # 7115. Link to PDF |
| 19. Olander, Timothy L. and Velden, Christopher S. Tropical cyclone convection and intensity analysis using differenced infrared and water vapor imagery. Weather and Forecasting, Volume 24, Issue 6, 2009, pp.1558-1572. Reprint # 6190. Link to PDF |
| 20. Olander, Timothy L. and Velden, Christopher S. Tropical cyclone convection and intensity analysis using differenced infrared and water vapor imagery. Weather and Forecasting, Volume 24, Issue 6, 2009, pp.1558-1572. Reprint # 6190. Link to PDF |
| 21. Olander, Timothy L. and Velden, Christopher S. The Advanced Dvorak Technique: Continued development of an objective scheme to estimate tropical cyclone intensity using geostationary infrared satellite imagery. Weather and Forecasting, Volume 22, Issue 2, 2007, pp.287-298. Reprint # 5344. Link to PDF |
| 22. Olander, Timothy L. and Velden, Christopher S. The Advanced Dvorak Technique: Continued development of an objective scheme to estimate tropical cyclone intensity using geostationary infrared satellite imagery. Weather and Forecasting, Volume 22, Issue 2, 2007, pp.287-298. Reprint # 5344. Link to PDF |
| 23. Velden, Christopher; Harper, Bruce; Wells, Frank; Beven, John L. II; Zehr, Ray; Olander, Timothy; Mayfield, Max; Guard, Charles 'Chip'; Lander, Mark; Edson, Roger; Avila, Lixion; Burton, Andrew; Turk, Mike; Kikuchi, Akihiro; Christian, Adam; Caroff, Philippe and McCrone, Paul. The Dvorak tropical cyclone intensity estimation technique: A satellite-based method that has endured for over 30 years. Bulletin of the American Meteorological Society, Volume 87, Issue 9, 2006, 1195-1210, S6-S9. Reprint # 5213. Link to PDF (Supplement pages only available on-line) |
| 24. Velden, Christopher; Harper, Bruce; Wells, Frank; Beven, John L. II; Zehr, Ray; Olander, Timothy; Mayfield, Max; Guard, Charles 'Chip'; Lander, Mark; Edson, Roger; Avila, Lixion; Burton, Andrew; Turk, Mike; Kikuchi, Akihiro; Christian, Adam; Caroff, Philippe and McCrone, Paul. The Dvorak tropical cyclone intensity estimation technique: A satellite-based method that has endured for over 30 years. Supplement. Bulletin of the American Meteorological Society, Volume 87, Issue 9, 2006, S6-S9. Reprint # 5213. Link to PDF (Supplement pages only available on-line) |
| 25. Velden, Christopher; Harper, Bruce; Wells, Frank; Beven, John L. II; Zehr, Ray; Olander, Timothy; Mayfield, Max; Guard, Charles 'Chip'; Lander, Mark; Edson, Roger; Avila, Lixion; Burton, Andrew; Turk, Mike; Kikuchi, Akihiro; Christian, Adam; Caroff, Philippe and McCrone, Paul. The Dvorak tropical cyclone intensity estimation technique: A satellite-based method that has endured for over 30 years. Bulletin of the American Meteorological Society, Volume 87, Issue 9, 2006, 1195-1210, S6-S9. Reprint # 5213. Link to PDF (Supplement pages only available on-line) |