Shallow water acoustic networks

Underwater acoustic networks are generally formed by acoustically connected ocean bottom sensor nodes, autonomous underwater vehicles (AUVs), and surface stations that serve as gateways and provide radio communication links to on-shore stations. The quality of service of such networks is limited by the low bandwidth of acoustic transmission channels, high latency resulting from the slow propagation of sound, and elevated noise levels in some environments. The long-term goal in the design of underwater acoustic networks is to provide for a self-configuring network of distributed nodes with network links that automatically adapt to the environment through selection of the optimum system parameters. This article considers several aspects in the design of shallow water acoustic networks that maximize throughput and reliability while minimizing power consumption.

[1]  J A Rice Telesonar Signaling and Seaweb Underwater Wireless Networks , 2001 .

[2]  P. Karn,et al.  MACA-a New Channel Access Method for Packet Radio , 1990 .

[3]  J. A. Catipovic,et al.  Development of Underwater Acoustic Modems and Networks , 1993 .

[4]  A.B. Baggeroer,et al.  The state of the art in underwater acoustic telemetry , 2000, IEEE Journal of Oceanic Engineering.

[5]  Vaduvur Bharghavan,et al.  MACAW: a media access protocol for wireless LAN's , 1994, SIGCOMM 1994.

[6]  M. Stojanovic,et al.  Underwater acoustic networks , 2000, IEEE Journal of Oceanic Engineering.

[7]  J. G. Proakis,et al.  Direct sequence spread spectrum based modem for under water acoustic communication and channel measurements , 1999, Oceans '99. MTS/IEEE. Riding the Crest into the 21st Century. Conference and Exhibition. Conference Proceedings (IEEE Cat. No.99CH37008).

[8]  J. Bellingham,et al.  Autonomous Oceanographic Sampling Networks , 1993 .

[9]  Milica Stojanovic,et al.  Recent advances in high-speed underwater acoustic communications , 1996 .