1 / 20

Tornado Detection Algorithm (TDA)

Tornado Detection Algorithm (TDA). By: Jeffrey Curtis and Jessica McLaughlin. Build 9. Typically triggered after a tornado event occurred Linked to the Mesocyclone Detection Algorithm Smaller rotations missed by algorithm. Build 10.

Download Presentation

Tornado Detection Algorithm (TDA)

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Tornado Detection Algorithm (TDA) By: Jeffrey Curtis and Jessica McLaughlin

  2. Build 9 • Typically triggered after a tornado event occurred • Linked to the Mesocyclone Detection Algorithm • Smaller rotations missed by algorithm

  3. Build 10 • Aimed to address low probability of detection by the Build 9 • TDA separated from the Mesocyclone Detection Algorithm • Built to detect significant regions of shear • Higher probability of detection • Distinguishes between tornadic and non-tornadic shear

  4. The Algorithm • 1-D pattern vectors identified • Gate to gate shear – velocity difference between two adjacent range bins • Minimum shear value • Detects only cyclonic rotation

  5. The Algorithm (cont.) • 2-D features created by the combination of three or more 1-D pattern vectors • Classifies features in order of shear values 35, 30, 25, 20, 15 and 11 m s-1 • Sorts 2-D features by increasing height

  6. The Algorithm (cont.) • Checks vertical continuity of 2-D features • Strongest circulation declared base • 3-D features composed of a minimum of three 2-D features • Ideal case of no gaps within elevation sweeps • No more than one elevation scan gap

  7. Fig. 1. A schematic of a 3D vortex formed by three 2D vortices. (Mitchell et al, 1998)

  8. Tornado Vortex Signature (TVS) • 3 dimensional circulation • Base extends to the 0.5 radar elevation height or has a base below 2000ft. (600m) above radar level • Shown by a red triangle and is coded red in the table

  9. Minimum velocity difference required is 25 ms-1 Circulation depth of at least 1.5 km TVS (cont.)

  10. Elevated Tornado Vortex Signature (ETVS) • 3 dimensional circulation • Base does not extend to the 0.5 radar elevation height and has a base above 2000ft. (600m) above radar level • Shown by a yellow triangle and is coded yellow in the table

  11. Minimum velocity difference required is 36 ms-1 Circulation depth of at least 1.5 km ETVS (cont.)

  12. Positives of TDA • Uses gate to gate instead of only strong shear values • gate to gate is more closely related to tornadic circulation • Mesocyclone does not need to be present to search for strong velocities • Searches all velocity pairs

  13. Positives (cont.) • More information given to the observer • Can determine shear type (TVS or ETVS) • Can determine base or depth of the circulation • Parameters can be changed to allow for better performance • Can allow for a higher probability of detecting significant regions of shear

  14. Negative of TDA • Doesn’t detect areas of anti-cyclonic rotation • High FAR (False Alarm Rate) • Can cause too many warnings to be made to the public • Build 9 had lower FAR

  15. Negatives (cont.) • Relationship between tornadoes and ETVS is not fully researched • Must fully complete radar scan before TVS/ETVS is resolved

  16. Using the Tornado Detection Algorithm • Important features to look for: • Position of the algorithm in relationship to the storm • Length of time that the TVS has been present • Distance from radar • Environmental winds

  17. References • Mitchell, E.D., 1998: The National Severe Storms Laboratory Tornado Detection Algorithm. Wea. Forecasting, 9,352-366. • The National Severe Storms Laboratory Tornado Detection Algorithm: Documentation. http://www.nssl.noaa.gov/wrd/swat/mitchell/nssl_tda.html • The NSSL Tornado Detection Algorithm (TDA), and Its Use for the 1996 Warning Decision Support System (WDSS) Proof-of-Concept (PoC) Tests. http://www.nssl.noaa.gov/wrd/swat/mitchell/tdawdss96user2.html

More Related