On modeling of eavesdropping behavior in underwater acoustic sensor networks
| Title | On modeling of eavesdropping behavior in underwater acoustic sensor networks |
| Publication Type | Conference Paper |
| Year of Publication | 2017 |
| Authors | Wang, Q., Dai, H. N. |
| Conference Name | 2017 IEEE 18th International Symposium on A World of Wireless, Mobile and Multimedia Networks (WoWMoM) |
| Keywords | acoustic communication, acoustic signal frequency, array hydrophones, Computational modeling, eavesdropping, eavesdropping probability, hydrophones, isotropic hydrophones, Metrics, probability, pubcrawl, Resiliency, Scalability, security, Signal to noise ratio, simulation, Sonar equipment, spreading factor, telecommunication security, underwater, underwater acoustic channel characteristics, underwater acoustic communication, underwater acoustic sensor networks, Underwater acoustics, Underwater Networks, Wind speed, Wireless sensor networks |
| Abstract | In this paper, we propose a theoretical framework to investigate the eavesdropping behavior in underwater acoustic sensor networks. In particular, we quantify the eavesdropping activities by the eavesdropping probability. Our derived results show that the eavesdropping probability heavily depends on acoustic signal frequency, underwater acoustic channel characteristics (such as spreading factor and wind speed) and different hydrophones (such as isotropic hydrophones and array hydrophones). Simulation results have further validate the effectiveness and the accuracy of our proposed model. |
| URL | https://ieeexplore.ieee.org/document/7974301/ |
| DOI | 10.1109/WoWMoM.2017.7974301 |
| Citation Key | wang_modeling_2017 |
- security
- wireless sensor networks
- Wind speed
- Underwater Networks
- Underwater acoustics
- underwater acoustic sensor networks
- underwater acoustic communication
- underwater acoustic channel characteristics
- underwater
- telecommunication security
- spreading factor
- Sonar equipment
- simulation
- Signal to noise ratio
- acoustic communication
- Scalability
- Resiliency
- pubcrawl
- probability
- Metrics
- isotropic hydrophones
- hydrophones
- eavesdropping probability
- eavesdropping
- Computational modeling
- array hydrophones
- acoustic signal frequency