Early Tests of Aircraft Tracking on NWRT

1. Early Tests ofAircraft Trackingon NWRT PAR Working Group William Benner, Weather Processors Team Manager December 5, 2006

2. History • Performed National Weather Radar Testbed (NWRT) Hardware Upgrades • Installed Digital Multiplexer for parallel processing • No impact to existing weather mission • Allows data to be fed to both the weather and surveillance Digital Signal Processors (DSPs) • Installed surveillance/track DSP (SKY) provides aircraft tracking capability • SKY Computers Inc. has since been dissolved • Delivered, installed and tested surveillance/track processor software

3. NWRT Architecture with Tracking Systran Link Exchange Card (Multiplexer)

4. Results • Demonstrated initial tracking capability • NWRT data compared with simultaneous ASR-9 data to validate surveillance tracks • Data analysis and visual comparison confirmed tracks from the NWRT were valid detections • Proved the Potential for Multi-functional Phased Array Radar • Gathered concurrent weather and surveillance data • No Impact on NWRT operations or performance • Low track fidelity and resolution due to lack of monopulse

5. NWRT Data gathered September 2005

6. ASR- 9 Data gathered September 2005

7. ASR-9 NWRT Correlated Data from NWRT & ASR-9 Black arrows indicate ASR-9 Data Blue Circles indicate NWRT Data

8. NWRT Altitude Measurement • NWRT measurement limited due to lack of monopulse • NWRT angular resolution is about 1.5o which equates to about a 2400 foot altitude error at 30nm. • Aircraft transition to lower beam results in a large altitude shift (~4800ft). • However, NWRT altitude coarsely tracks with ASR-9 tracks.

9. ASR-9 vs NWRT Altitude Comparison

10. Current Developments • Developing Surveillance/Track management capability • Correlated track database allows active tracking of aircraft • Enhancing real-time surveillance/track processor • Improved real-time SKY process scheduler allows faster radar scan rates • Track Processor processes first four pulses in a dwell • Scheduler used during test only able to complete processing for dwells of 16 pulses or more - Goal is to handle all pulse/dwell schemes • Allows users to continue evaluating the potential multi-functional capability of the NWRT system

11. Current Developmentscontinued • Remote site display capability • XML formatted data output will enable shared, web based Weather and Tracking displays • Remote site display planned for WJHTC and NSSL • Provide data to University of Oklahoma for continuing research • OU Radar Engineering is currently researching target detection methodologies in order to separate surveillance data from weather data more easily

12. Future R&D/Tasking • Upgrade NWRT to perform monopulse tracking • Improve tracking accuracy and resolution • Modify Real-time Controller/Scheduler • Implement adaptive closed loop tracking and scanning system • Facilitate hardware and software technology insertion • Initial investigation of possible future SKY equipment replacement completed, PC based solution will need to be finalized with state of the art equipment when needed • Support future NWRT upgrades