This research characterizes the initial acquisition performance of a transform domain communication system (TDCS) via modeling and simulation. As previously demonstrated a TDCS provides an effective interference suppression capability and differs from traditional spread spectrum systems in two primary ways: 1) spectrally crowded regions are avoided via adaptive spectral notching, and 2) no carrier modulation is employed; rather "noise-like" basis functions are data modulated. Relevant TDCS research has unrealistically assumed perfect synchronization conditions, a vitally important and complex element of most digital communication systems. This research investigated initial TDCS acquisition performance for various synchronization codewords and several acquisition methods, e.g., direct time correlation (DTC) and German's technique, using both peak and threshold detection techniques. Theoretical development and MATLAB(R) simulations results indicate a TDCS can achieve a high probability of detection (P/sub 0/>0.9) for relatively low input Signal-to-Noise Ratios (SNRs), as low as -23 dB for peak detection and -21 dB for threshold detection. DTC results are shown to approximate matched filter performance while providing reasonable improvement over radiometric processing. Extensive computer simulations and subsequent analysis indicate that a TDCS can adequately acquire and accurately align a locally generated reference waveform with a received noise-like TDCS signal.
Transform domain communications: interference avoidance and acquisition capabilities
2000-01-01
672003 byte
Conference paper
Electronic Resource
English
Transform Domain Communications: Interference-Avoidance and Acquisition Capabilities
British Library Conference Proceedings | 2000
|Future data acquisition capabilities
AIAA | 1986
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