DOI QR코드

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A study on underwater optical wireless communication link capability in the Bay of Bengal

  • Sathyaram, V. (SRM University Kattankulathur) ;
  • Prince, Shanthi (Department of Electronics and Communication Engineering, SRM University) ;
  • Vedachalam, N. (National Institute of Ocean Technology, Ministry of Earth Sciences)
  • 투고 : 2017.11.02
  • 심사 : 2018.02.20
  • 발행 : 2018.03.25

초록

The paper presents a numerical underwater channel model developed in MATLAB for estimating the optical link budget between a light emitting diode (LED) based optical transmitter and a photo diode (PD) receiver when operated in the harbor, coastal and deep waters locations in the Bay of Bengal. The water samples are collected at different locations in the Bay of Bengal using a water sampler during an offshore research cruise. The optical attenuation, the main inherent parameter determining the range of the optical communication link is identified for the different waters using an underwater irradiance measurement system in the laboratory. The identified parameters are applied to the numerical model and found that a 10 W LED and a photo diode based system can provide the optical budget required for a horizontal underwater communication range of about 0.5, 14 and 35 m in the harbor, coastal and deep waters locations respectively. By increasing the transmitter power to 50 W, the operating range of the communication link could be increased up to 53 m in deep water locations in the Bay of Bengal.

키워드

참고문헌

  1. Baiden, G., Bissiri, Y. and Masoti, A. (2009), "Paving the way for a future underwater omni directional wireless optical communication systems", Ocean Eng., 36(9-10), 633-640. https://doi.org/10.1016/j.oceaneng.2009.03.007
  2. Fan, Y., Li, W., Calzado, V. S., Trees, C., Stamnes, S., Fournier, G. and Stamnes, K. (2015), "Inferring inherent optical properties and water constituent profiles from apparent optical properties", Opt. Express, 23(15), 987-1009. https://doi.org/10.1364/OE.23.00A987
  3. Farr, N., Ware, J., Pontbriand, C., Hammar, T. and Tivey, M. (2010), "Optical communication system expands CORK seafloor observatory's bandwidth", IEEE Oceans-Seattle, USA.
  4. Jaruwatanadilok, S. (2008), "Underwater wireless optical communication channel modeling and performance evaluation using vector radiative transfer theory", IEEE J. Selected Areas Commun., 26(9).
  5. Johnson, L.J., Green, R.J. and Leeson, M.S. (2013), "Underwater optical wireless communications: depth dependent variations in attenuation", Appl. Optics, 52(33), 7867- 7873. https://doi.org/10.1364/AO.52.007867
  6. Johnson, L.J., Jasman, F., Green, R.J. and Leeson, M.S. (2014), "Recent advances in underwater optical wireless communications", Underwater Technol., 32(3), 167-175. https://doi.org/10.3723/ut.32.167
  7. Kaushal, H. and Kaddoum, G. (2016), "Underwater optical wireless communication", IEEE Access, 4, 1518-1547. https://doi.org/10.1109/ACCESS.2016.2552538
  8. Kazemiam, E. and Kashani, F.D. (2013), "Reliability analysis of underwater optical communication link in different locations through Caspian sea", Optik, 124, 5184-5188. https://doi.org/10.1016/j.ijleo.2013.03.080
  9. Kumar A., Prince S., Vedachalam, N and Doss Prakash, V. (2017), "Ocean water channel modelling and estimation of power link budget for underwater wireless link. In: Wireless communication Signal Processing and networking", International conference on. Chennai: IEEE.
  10. OSI Optoelectronics (2006), Photodiode characteristics and applications. Retrieved from: http://www.osioptoelectronics.com/application-notes/an-photodiode-parameters-characteristics.pdf
  11. RAMSES, (2017), Hyperspectral Radiance and Irradiance Sensors for the UV, VIS or UV/VIS range, http://www.trios.de/en/products/sensors/ramses.html.
  12. Sonardyne. (2016), "Sonardyne underwater wireless optical communication system", Retrieved from :www.sonardyne.com/wp-content /uploads/2016/06/BlueComm.pdf
  13. Vedachalam, N., Ramesh, R., Muthukumaran, D., Aarthi, A., Subramanian, A., Ramadass, G.A. and Atmanand, M.A. (2013), "Reliability-centered development of deep water ROV ROSUB 6000", J. Marine Technol., 47(3), 55-71
  14. Zhang, H. and Dong, Y. (2015), "Link misalignment for underwater wireless optical communications", In: Advances in Wireless and Optical Communications (RTUWO), Riga: IEEE, 215-218.