Title :
PN code-aided ranging for optical satellite communication systems
Author :
Kiasaleh, Kamran
Author_Institution :
Erik Jonsson Sch. of Eng., Comput. Sci., Texas Univ., Richardson, TX, USA
fDate :
12/1/1991 12:00:00 AM
Abstract :
A model for the pseudonoise (PN) code-aided estimation of the transmission path delay and ranging for direct-detection on-off-keying (OOK) optical intersatellite channels is suggested in which the intensity of the optical field is modulated by a PN code and random binary data symbols. A closed-loop code-tracking loop model, motivated by the maximum-likelihood (ML) estimation of the phase difference between the received PN code and a locally generated one, is obtained. The maximum-likelihood model is approximated and, consequently, receiver models for the high and low signal-to-noise ratio (SNR) are suggested. The resulting code tracking loop S-curves of the receivers are that of the S-curves of a noncoherent delay-locked loop (NCDLL). The performance of the two receivers under the influence of background noise, signal count and PN code length is obtained
Keywords :
delays; encoding; optical links; parameter estimation; receivers; satellite links; space communication links; tracking; OOK; PN code length; SNR; background noise; closed-loop code-tracking loop model; code tracking loop S-curves; code-aided estimation; code-aided ranging; direct-detection on-off-keying; intersatellite channels; maximum-likelihood model; noncoherent delay-locked loop; optical receivers; optical satellite communication; phase difference; pseudonoise; random binary data symbols; signal count; signal-to-noise ratio; transmission path delay; Delay estimation; Intensity modulation; Maximum likelihood estimation; Modulation coding; Optical modulation; Optical receivers; Phase estimation; Satellite communication; Signal to noise ratio; Tracking loops;
Journal_Title :
Communications, IEEE Transactions on
