The following publications are possibly variants of this publication:
- The Okamoto lower bound for the normalized detection threshold of the FFT filter bank-based summation detectorSichun Wang, Robert J. Inkol, Sreeraman Rajan, François Patenaude. ccece 2010: 1-6 [doi]
- On the Performance Gain of the FFT Filter-Bank-Based Summation and Majority CFAR DetectorsSichun Wang, Robert J. Inkol, Sreeraman Rajan, François Patenaude. tim, 58(5):1778-1788, 2009. [doi]
- Upper and Lower Bounds for the Threshold of the FFT Filter Bank-Based Summation CFAR DetectorSichun Wang, François Patenaude, Robert J. Inkol. icassp 2006: 289-292 [doi]
- Application of Imhof formula in the computation of the normalized detection threshold for the FFT summation detectorSichun Wang, Robert J. Inkol, François Patenaude. ccece 2011: 142-145 [doi]
- A New Upper Bound for the Normalized Detection Threshold of the FFT-Based Summation DetectorSichun Wang, François Patenaude, Robert J. Inkol. vtc 2012: 1-5 [doi]
- Computation of the normalized detection threshold for the FFT summation detector through eigenvalue sequence truncationSichun Wang, Robert J. Inkol, François Patenaude, Sreeraman Rajan. milcom 2011: 131-136 [doi]
- A comparison of the normalized detection threshold for the overlapped and non-overlapped FFT summation detectorsSichun Wang, Robert J. Inkol, Sreeraman Rajan, François Patenaude. ccece 2011: 136-141 [doi]
- Performance Comparison of the FFT Filter Bank-Based Majority and Median CFAR DetectorsSichun Wang, Robert J. Inkol, Sreeraman Rajan. ccece 2006: 36-40 [doi]
- Numerical computation of the normalized detection threshold for the FFT J-out-of-L detectorSichun Wang, Robert J. Inkol, Sreeraman Rajan, François Patenaude. ccece 2009: 1117-1122 [doi]