HCR: A HYBRID MAC PROTOCOL FOR UNDERWATER SENSOR NETWORKS USING CHANNEL RESERVATION

Lu Hong, Feng Hong, Zhongwen Guo, and Ying Guo

References

  1. [1] I.F. Akyildiz, D. Pompili, & T. Melodia, Underwater acoustic sensor networks: Research challenges. Ad Hoc Networks Journal, 3 (3), 2005, 257–279.
  2. [2] I.F. Akyildiz, D. Pompili, & T. Melodia, State of the art in protocol research for underwater acoustic sensor networks. Proc. 1st ACM Int. Workshop on Underwater Networks (WUWNet’06), Los Angeles, California, USA, 2006, 7–16.
  3. [3] P. Casari, S. Marella, & M. Zorzi, A comparison of multiple access techniques in clustered underwater acoustic networks, IEEE Oceans’ 07, Aberdeen, Scotland, 2007.
  4. [4] X. Guo, M.R., Frater, & M.J. Ryan, A propagation-delaytolerant collision avoidance protocol for underwater acoustic sensor networks. Proc. MTS/IEEE OCEANS’06, Boston, 2006.
  5. [5] M. Molins & M. Stojanovic, Slotted FAMA: A MAC protocol for underwater acoustic networks. Proc. MTS/IEEE OCEANS’06, Boston, 2006.
  6. [6] B. Peleato & M. Stojanovic, A MAC protocol for ad-hoc underwater acoustic sensor networks. Proc. ACM WUWNet, 2006, 113–115.
  7. [7] M. Park & V. Rodoplu, UWAN-MAC: An energy-efficient MAC protocol for underwater acoustic wireless sensor networks, IEEE Journal of Oceanic Engineering, 32 (3), 2007, 710–720.
  8. [8] M. Stojanovic & L. Freitag, Multichannel detection for wideband underwater acoustic cdma communications. IEEE Journal of Oceanic Engineering, 31, 2006, 685–695.
  9. [9] K.B.K. II & P. Mohapatra, A hybrid medium access control protocol for underwater wireless networks. WUWNet’07, Montreal, Quebec, Canada, 2007, 33–40.
  10. [10] A.F.H. III, M. Stojanovic, & M. Zorzi. When underwater acoustic nodes should sleep with one eye open: Idle-time power management in underwater sensor networks. Proc. ACM WUWNet, Los Angeles, California, USA, 2006, 105–108.

Important Links:

Go Back