Title :
The state of the art in underwater acoustic telemetry
Author :
Kilfoyle, Daniel B. ; Baggeroer, Arthur B.
Author_Institution :
MIT & Woods Hole Oceanogr. Instn. Joint Program in Oceanogr. Eng., Woods Hole Oceanogr. Instn., MA, USA
Abstract :
Progress in underwater acoustic telemetry since 1982 is reviewed within a framework of six current research areas: (1) underwater channel physics, channel simulations, and measurements; (2) receiver structures; (3) diversity exploitation; (4) error control coding; (5) networked systems; and (6) alternative modulation strategies. Advances in each of these areas as well as perspectives on the future challenges facing them are presented. A primary thesis of this paper is that increased integration of high-fidelity channel models into ongoing underwater telemetry research is needed if the performance envelope (defined in terms of range, rate, and channel complexity) of underwater modems is to expand.
Keywords :
acoustic signal processing; reviews; underwater acoustic telemetry; Doppler effects; acoustic signal processing; alternative modulation strategies; channel measurements; channel simulations; diversity exploitation; error control coding; future challenges; high-fidelity channel models; impulse response; networked system; ocean dynamics; receiver structures; underwater acoustic communiction; underwater acoustic propagation; underwater acoustic telemetry; underwater channel physics; underwater modems; Bandwidth; Demodulation; Diversity methods; Frequency shift keying; Marine technology; Modems; Signal processing algorithms; Telemetry; Underwater acoustics; Underwater communication;
Journal_Title :
Oceanic Engineering, IEEE Journal of
