Digital Signal Processing Reference
In-Depth Information
48. Sen, S., Tang, G., Nehorai, A.: Multi-objective optimization of OFDM radar waveform for
target detection. IEEE Trans. Signal Process.
59
(2), 639-652 (2011)
49. Sira, S.P., Papandreou-Suppappola, A., Morrell, D.: Dynamic configuration of time-varying
waveforms for agile sensing and tracking in clutter. IEEE Trans. Signal Process.
55
(7), 3207-
3217 (2007)
50. Skolnik, M.I.: Introduction to Radar Systems, 3rd edn. McGraw-Hill, New York (2002)
51. Spafford, L.: Optimum radar signal processing in clutter. IEEE Trans. Inf. Theory
14
(5), 734-
743 (1968)
52. Tang, G., Nehorai, A.: Performance analysis of sparse recovery based on constrained minimal
singular values. IEEE Trans. Signal Process.
59
(12), 5734-5745 (2011)
53. Van Trees, H.L.: Optimum signal design and processing for reverberation-limited environ-
ments. IEEE Trans. Mil. Electron.
9
(3), 212-229 (1965)
54. Weinmann, F.: Frequency dependent RCS of a generic airborne target. In: URSI Int. Symp.
Electromagnetic Theory (EMTS), Berlin, Germany, pp. 977-980 (2010)
55. Wicks, M.C.: A brief history of waveform diversity. In: Proc. IEEE Radar Conf., Pasadena,
CA, pp. 1-6 (2009)
56. Wicks, M.C., Mokole, E., Blunt, S., Schneible, R., Amuso, V. (eds.): Principles of Waveform
Diversity and Design. SciTech Pub., Raleigh (2010)
57. Zitzler, E., Laumanns, M., Bleuler, S.: A tutorial on evolutionary multiobjective optimization.
In: Gandibleux, X., Sevaux, M., Sörensen, K., T'kindt, V. (eds.) Metaheuristics for Multiobjec-
tive Optimisation. Springer Lecture Notes in Economics and Mathematical Systems, vol. 535,
pp. 3-37. Springer, Berlin (2004)
Search WWH ::
Custom Search