Title :
Noncoherent maximum-likelihood block detection of orthogonal NFSK-LDPSK signals
Author :
Chung, Char-Dir ; Hung, Fu-Chuan
Author_Institution :
Graduate Inst. of Commun. Eng., Nat. Central Univ., Chung-li, Taiwan
fDate :
3/1/2002 12:00:00 AM
Abstract :
This paper investigates the noncoherent block detection of orthogonal N frequency-shift keying (FSK)-L differential phase shift keying (DPSK) signals transmitted over the additive white Gaussian noise channel, based on the principle of maximum-likelihood (ML) sequence estimation. By virtue of a union bound argument, asymptotic upper bounds for the bit error probability of the developed ML block receiver are derived and verified by simulation. It is analytically shown that the noncoherent NFSK-LDPSK ML block receiver performs comparably with the ideal coherent NFSK-L phase shift keying (PSK) receiver for L = 2 and 4, as the observation block length is large enough. Furthermore, substantial performance improvement can be achieved by the ML block detection of the NFSK-LDPSK signal with L > 2 by increasing the observation block length
Keywords :
AWGN channels; differential phase shift keying; error statistics; maximum likelihood sequence estimation; radio receivers; signal detection; AWGN channel; ML block receiver; MLSE; additive white Gaussian noise channel; asymptotic upper bounds; bit error probability; differential phase shift keying; frequency-shift keying; maximum-likelihood sequence estimation; noncoherent maximum-likelihood block detection; observation block length; orthogonal DPSK signals; orthogonal FSK signals; simulation; union bound; Additive white noise; Differential phase shift keying; Differential quadrature phase shift keying; Frequency estimation; Frequency shift keying; Maximum likelihood detection; Maximum likelihood estimation; Phase detection; Phase frequency detector; Phase shift keying;
Journal_Title :
Vehicular Technology, IEEE Transactions on
