Minimal Compression of a Radio-Frequency Pulse
Abstract
Quadrature amplitude modulation (QAM) and a complementary representation of a causal waveform have been used to develop a sidelobe-free pulse-compression technique. Envelopes of radio-frequency (RF) pulses under study include both unimodal (Laplacian, Gaussian, rectangular) and bimodal (Hermite-Gaussian) shapes. Although the achievable compression gain is small (~2), the generation and phase-invariant correlation processing of such created compressible pulses can be accomplished with the use of low-complexity systems.
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