55.Signal Processing by John G. Webster (Editor) PDF

By John G. Webster (Editor)

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27. 28. 29. 30. 31. 32. 33. 34. 35. CN Re Im a* xT zH tr A x⊗y x y v t w R N M fd PRI or Tr PRF CPI SNR CNR JNR SINR PD PFA Complex N-space Real part Imaginary part Complex conjugation of a Transpose of x Hermitian transpose of z Trace of the square matrix A Tensor (Kronecker) product of x and y Schur–Hadamard product of x and y Steering vector 40. 41. 42. 43. 44. 45. 46. 47. 48. 49. 50. Target steering vector Adaptive weight vector Interference-plus-noise covariance matrix Number of adaptive degrees of freedom or antenna elements Number of radar pulses Doppler frequency Pulse repetition interval Pulse repetition frequency Coherent processing interval Signal-to-noise ratio Clutter-to-noise ratio Jammer-to-noise ratio Signal-to-interference-plus-noise ratio Probability of detection Probability of false alarm BIBLIOGRAPHY 1.

Figure 11. SINR loss for the STAP algorithms considered. where 19 20 Radar, Adaptive Figure 12. Adaptive weight response for the STAP algorithms considered. Compare these response patterns with those shown in Figs. 1 and 5. rank vt (fd ) is a tapered Doppler filter of the form of Eq. (26), vs (φ, θ) is a beamformer of the form of Eq. (21) (both may be tapered for sidelobe control as described in the subsection “Tapered Steering Vectors” above), and ek represents the kth canonical unit vector (0, .

Where 19 20 Radar, Adaptive Figure 12. Adaptive weight response for the STAP algorithms considered. Compare these response patterns with those shown in Figs. 1 and 5. rank vt (fd ) is a tapered Doppler filter of the form of Eq. (26), vs (φ, θ) is a beamformer of the form of Eq. (21) (both may be tapered for sidelobe control as described in the subsection “Tapered Steering Vectors” above), and ek represents the kth canonical unit vector (0, . . , 0, 1, 0, . . , 0)T (unity in the kth element, zeros elsewhere), IN represents an N-by-N identify matrix, and each boldface zero represents an N-by1 block of zeros.

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55.Signal Processing by John G. Webster (Editor)


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