Title :
Blind detection of PAM and QAM in fading channels
Author :
Ryan, Daniel J. ; Clarkson, I. Vaughan L ; Collings, Iain B.
Author_Institution :
CSIRO ICT Centre, Univ. of Sydney, NSW
fDate :
3/1/2006 12:00:00 AM
Abstract :
This correspondence considers block detection for blind wireless digital transmission. At high signal-to-noise ratio (SNR), block detection errors are primarily due to the received sequence having multiple possible decoded sequences with the same likelihood. We derive analytic expressions for the probability of detection ambiguity written in terms of a Dedekind zeta function, in the zero noise case with large constellations. Expressions are also provided for finite constellations, which can be evaluated efficiently, independent of the block length. Simulations demonstrate that the analytically derived error floors exist at high SNR
Keywords :
fading channels; maximum likelihood detection; number theory; probability; pulse amplitude modulation; quadrature amplitude modulation; radiocommunication; sequential decoding; Dedekind zeta function; PAM; QAM; blind wireless digital transmission; block detection error; decoded sequence; fading channel; finite constellation; maximum likelihood detection; number theory; probability detection; pulse amplitude modulation; quadrature amplitude modulation; Analytical models; Australia; Decoding; Error analysis; Fading; Laboratories; Pulse modulation; Quadrature amplitude modulation; Signal to noise ratio; Wireless communication; Blind detection; block detection; error floor; fading; noncoherent communication; number theory; sequence detection; wireless communications;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2005.864482
