Title :
An improved algorithm for optimal noncoherent QAM detection
Author :
McKilliam, Robby G. ; Ryan, Daniel J. ; Clarkson, I. Vaughan L ; Collings, Iain B.
Author_Institution :
Univ. of Queensland, Brisbane
fDate :
Jan. 30 2008-Feb. 1 2008
Abstract :
Ryan et at. recently described two polynomial time algorithms for noncoherent detection of square QAM in block fading channels with additive white Gaussian noise (AWGN). The first algorithm is optimal with respect to the generalized likelihood ratio test (GLRT) and requires O(T3) arithmetic computations, where T is the block length of the noncoherent receiver. The second algorithm requires only O(T2 logT) arithmetic computations but is statistically suboptimal. This paper derives a new algorithm that is optimal yet requires only O(T2 logT) arithmetic computations. The new algorithm has the geometric interpretation of finding the nearest codeword to a plane (2 dimensional subspace). The nearest codeword is found by testing codewords that are near a finite number of lines formed by the intersection of the plane and the nearest neighbour boundaries of the codewords.
Keywords :
computational complexity; fading channels; polynomial approximation; quadrature amplitude modulation; signal detection; additive white Gaussian noise; block fading channels; generalized likelihood ratio test; nearest codeword; optimal noncoherent QAM detection; polynomial time algorithms; AWGN; Arithmetic; Decoding; Detectors; Fading; Lattices; Polynomials; Quadrature amplitude modulation; Testing; Wireless communication; Noncoherent detection; lattice decoding; wireless communications;
Conference_Titel :
Communications Theory Workshop, 2008. AusCTW 2008. Australian
Conference_Location :
Christchurch
Print_ISBN :
978-1-4244-2037-7
Electronic_ISBN :
978-1-4244-2038-4
DOI :
10.1109/AUSCTW.2008.4460823
