论文信息 - Effect of near-surface bubble plumes on the acoustic signal used in UWACNs

Effect of near-surface bubble plumes on the acoustic signal used in UWACNs

Shallow water environments exhibit significantly prominent spatio-temporal variability; compared to the ones corresponding to deep oceans. An acoustic signal propagating through a shallow water region faces multiple reflections with the ocean surface as well as with the ocean bottom. So, rendering wireless acoustic communication in such type of unpredictable environment is challenging, as the acoustic signal is subjected to different losses such as multipath fading and absorption. In this paper, we analyze the near ocean surface anomalous behavior of acoustic signals, typically observed in Underwater Wireless Acoustic Communication Networks (UWACNs), due to damping in the presence of sub-surface bubble plumes. Bubbles have profound impact on the acoustical properties in the oceanic environment. The injection of bubble plumes near ocean surface renders the subsurface acoustic signal to behave anomalously.

Sudip Misra | Amit Kumar Mandal | Mihir Kumar Dash

[1] Edward C. Monahan,et al. Acoustically relevant bubble assemblages and their dependence on meteorological parameters , 1990 .

[2] V. Misra. Ocean-Atmosphere Interaction , 2014 .

[3] Sudip Misra,et al. HASL: High-Speed AUV-Based Silent Localization for Underwater Sensor Networks , 2013, QSHINE.

[4] Manuel P. Malumbres,et al. Underwater Wireless Sensor Networks: How Do Acoustic Propagation Models Impact the Performance of Higher-Level Protocols? , 2012, Sensors.

[5] Qinqing Zhang,et al. Underwater acoustic communication channel characterization in the presence of bubbles and rough sea surfaces , 2011, OCEANS 2011 IEEE - Spain.

[6] Sudip Misra,et al. Exploiting Partial-Packet Information for Reactive Jamming Detection: Studies in UWSN Environment , 2013, ICDCN.

[7] J. Lynch,et al. Fundamentals of Shallow Water Acoustics , 2012 .

[8] X. Lurton. An Introduction to Underwater Acoustics , 2002 .

[9] Mark Porter,et al. The KRAKEN normal mode program , 1992 .

[10] V. Petnikov,et al. Shallow Water Acoustics , 2002 .

[11] G. Norton,et al. On the relative role of sea-surface roughness and bubble plumes in shallow-water propagation in the low-kilohertz region , 2001 .

[12] Athanasios V. Vasilakos,et al. Jamming in underwater sensor networks: detection and mitigation , 2012, IET Commun..