Title :
Analysis of finite-duration wide-band frequency sweep signals for ocean tomography
Author :
Duda, Timothy F.
Author_Institution :
Dept. of Appl. Ocean. Phys. & Eng., Woods Hole Oceanogr. Instn., MA, USA
fDate :
4/1/1993 12:00:00 AM
Abstract :
A group of amplitude and frequency modulated signals which generate narrow synthesized pulses are described. The pulse-compression properties of these signals should approach those of maximal (M) sequence phase-modulated signals now commonly used in ocean experiments. These amplitude-tapered linear frequency-sweep (chirp) type signals should be accurately reproducible with most acoustic sources since they have controllable limited-bandwidth frequency content and differentiable phase. The Doppler response of the signals is calculated using a wideband approach, where the frequency shift from relative motion is not constant throughout the waveform. The resultant Doppler effect on the matched-filter output is a function of the signal duration. The signals are suitable for use with tunable resonant transducers, and have adequate Doppler response for use with Lagrangian ocean drifters
Keywords :
Doppler effect; acoustic signal processing; oceanographic techniques; remote sensing; spectral analysis; underwater sound; AM; Doppler response; FM; Lagrangian ocean drifters; amplitude-tapered linear frequency-sweep; chirp; controllable limited-bandwidth frequency; differentiable phase; finite-duration wide-band frequency sweep signals; frequency shift; matched-filter output; maximal sequence phase modulated signals; ocean tomography; pulse-compression properties; relative motion; synthesized pulses; tunable resonant transducers; Acoustic pulses; Amplitude modulation; Chirp modulation; Frequency modulation; Frequency synthesizers; Oceans; Pulse generation; Pulse modulation; Signal analysis; Wideband;
Journal_Title :
Oceanic Engineering, IEEE Journal of
