Digital Signal Processing Reference
In-Depth Information
8. Barbaresco, F., Wasselin, J.P., Jeantet, A., Meier, U.: Wake vortex profiling by Doppler X-band
radar: Orly trials at initial take-off and ILS interception critical areas. In: Proceedings of the
IEEE Radar Conference RADAR'08, pp. 1-6 (2008)
9. Barbaresco, F., Meier, U.: Radar monitoring of a wake vortex: electromagnetic reflection of
wake turbulence in clear air. Comptes Rendus Physique
11
(1), 54-67 (2010)
10. Barbaresco, F.: Interactions between symmetric cone and information geometries: Bruhat-tits
and siegel spaces models for high resolution autoregressive doppler imagery. In: Nielsen, F.
(ed.) Emerging Trends in Visual Computing, Lecture Notes in Computer Science, vol. 5416,
pp. 124-163. Springer, Berlin (2009)
11. Bash, S., Carpman, D., Holl, D.: Radar pulse compression using the nvidia cuda framework.
In: IEEE High Performance Extreme Computing Conference, vol. 1, p. 1 (2008)
12. Bobylev, A.V., Vyshinsky, V.V., Soudakov, G.G., Yaroshevsky, V.A.: Aircraft vortex wake and
flight safety problems. J. Aircr.
47
, 663-674 (2010)
13. De Donno, D., Esposito, A., Tarricone, L., Catarinucci, L.: Introduction to GPU computing and
CUDA programming: A case study on FDTD [em programmer's notebook]. IEEE Antennas
Propag. Mag.
52
(3), 116-122 (2010)
14. Gerz, T., Holzpfel, F., Darracq, D.: Commercial aircraft wake vortices. Prog. Aerosp. Sci.
38
(3),
181-208 (2002)
15. Ginevsky, A., Zhelannikov, A.: Vortex Wakes of Aircrafts, Foundations of Engineering Mechan-
ics. Springer, Berlin (2009)
16. Liu, Z., Jeannin, N., Vincent, F., Wang, X.: Development of a radar simulator for monitoring
wake vortices in rainy weather. Radar (Radar), 2011 IEEE CIE International Conference on
vol.1, pp. 284-287, 24-27 Oct 2011. doi:
10.1109/CIE-Radar.2011.6159533
17. Lu, Y., Wang, K., Liu, X., Yu, W.: A GPU based real-time SAR simulation for complex scenes.
In: International Radar Conference, Bordeaux, October 2009
18. NVIDIA: NVIDIA CUDA Programming Guide Version 1.0. NVIDIA (2007)
19. Pettersson, J.: Radar Signal Processing with Graphics Processors (GPUs). Master's thesis,
Uppsala Universitet (2010)
20. Shariff, K., Wray, A.: Analysis of the radar reflectivity of aircraft vortex wakes. J. Fluid Mech
463
, 121-161 (2002)
21. Srivastava, S., Gupta, M.: Bayesian estimation of the entropy of the multivariate gaussian. In:
IEEE International Symposium on Information Theory ISIT 2008. pp. 1103-1107 (2008)
22. Trench, W.F.: An algorithm for the inversion of finite toeplitz matrices. J. Soc. Ind. App. Math.
12
(3), 515-522 (1964).
http://www.jstor.org/stable/2946327
23. Vanhoenacker-Janvier, D., Djafri, K., della Faille de Leverghem, R., van Swieten, B.,
Barbaresco,
F.:
Simulation
of
the
Radar
cross-section
of
wake
vortices
in
clear
air,
ERAD'12 Conference, Toulouse, June 2012
24. Weber, R., Gothandaraman, A., Hinde, R., Peterson, G.: Comparing hardware accelerators in
scientific applications: A case study. IEEE Trans. Parallel Distributed Syst.
22
(1), 58-68 (2011)
25. Yang, L.: Riemannian median and its estimation. LMS J. Comput. Math.
13
, 461-479 (2010)
26. Yang, L., Arnaudon, M., Barbaresco, F.: Riemannian median, geometry of covariance matrices
and radar target detection. In: European Radar Conference (EuRAD) 2010, pp. 415-418 (2010)
27. Yang, L., Arnaudon, M., Barbaresco, F.: Geometry of covariance matrices and computation
of median. In: Proceedings of the 30th International Workshop on Bayesian Inference and
Maximum Entropy Methods in Science and, Engineering (2010)
28. Zhang B., Liu G.-b., Liu D., Fan Z.-L.: Real-time software gnss signal simulator accelerated
by cuda. In: 2nd International Conference on Future Computer and Communication [Volume
1] (2010)
