Abstract
The paper describes simple prediction techniques for compensating the effects of carrier phase and frequency offsets normally encountered in high-speed data transmission systems over distorted voice-band channels. Computer simulations are used to show how the techniques can be used to overcome the problem of large delays in decision-directed carrier phase-locked loops and hence improve the phase and frequency lock of such systems. The various prediction techniques are compared at their steady-state RMS prediction error in the presence of ± 10Hz frequency offset.
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