Title :
On-board axial detection of wake vortices using a 2-m m LiDAR
Author :
Douxchamps, Damien ; Lugan, S. ébastien ; Verschueren, Yannick ; Mutuel, Laurence ; Macq, Beno It ; Chihara, Kunihiro
Author_Institution :
Image Process. Lab., Inst. of Sci. & Technol., lkoma
Abstract :
This paper describes the first successful attempt to detect wake vortices axially using an on-board infrared pulsed Doppler LiDAR (light detection and ranging) is described. On-board axial detection is more complex than the classic ground-based tangential approach, because the axial air speed in vortices is low and the atmospheric particle density is reduced, yielding a poorer SNR. To provide meaningful results in such unfavorable conditions we have developed a new flexible signal processing method based on a two-primitive model fitting the spectrum of the Doppler return. This new spectral estimation successfully detects wake vortices with an admissible SNR that is lower than other on-board state-of-the-art approaches. It was validated through flight tests.
Keywords :
Doppler radar; aerospace testing; airborne radar; infrared detectors; optical radar; optical signal detection; radar detection; spectral analysis; vortices; wakes; atmospheric particle density; axial air speed; flexible signal processing method; flight tests; infrared pulsed Doppler LiDAR; light detection-and-ranging system; on-board axial detection; size 2 mum; spectral estimation; two-primitive model fitting; wake vortice detection; Aerospace electronics; Air traffic control; Aircraft; Airports; FAA; Face detection; Hazards; Infrared detectors; Laser radar; Throughput;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
DOI :
10.1109/TAES.2008.4667709
