Digital transmission using multimode phase-continuous chirp signals
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In a spread-spectrum system the transmitted signal is spread over
a wide frequency band, often much wider than the minimum bandwidth
needed for the information to be conveyed. The concept of varying the
modulation index of a continuous phase FSK (i.e. CPFSK) waveform is
applied to digital transmission using chirp signals. These multimode
chirp waveforms are described and their ability to perform over the
coherent Gaussian channel is examined. It is shown that the dual-mode
phase-continuous chirp signals out perform monomode signals by nearly
0.8 dB, when corresponding high-SNR 5-bit optimum
minimum-bit-error-probability receivers are employed. A low-complexity
suboptimum average matched filter receiver for multimode chirp signals
is examined and explicit expressions for its performance are given
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