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Reseach Article

Under Water Environment: a Brief of Explored Work and Future Scope

Published on September 2016 by Navneet Kaur, Preeti Singh, Pardeep Kaur
International Conference on Advances in Emerging Technology
Foundation of Computer Science USA
ICAET2016 - Number 2
September 2016
Authors: Navneet Kaur, Preeti Singh, Pardeep Kaur

Navneet Kaur, Preeti Singh, Pardeep Kaur . Under Water Environment: a Brief of Explored Work and Future Scope. International Conference on Advances in Emerging Technology. ICAET2016, 2 (September 2016), 12-17.

author = { Navneet Kaur, Preeti Singh, Pardeep Kaur },
title = { Under Water Environment: a Brief of Explored Work and Future Scope },
journal = { International Conference on Advances in Emerging Technology },
issue_date = { September 2016 },
volume = { ICAET2016 },
number = { 2 },
month = { September },
year = { 2016 },
issn = 0975-8887,
pages = { 12-17 },
numpages = 6,
url = { /proceedings/icaet2016/number2/25884-t033/ },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
%0 Proceeding Article
%1 International Conference on Advances in Emerging Technology
%A Navneet Kaur
%A Preeti Singh
%A Pardeep Kaur
%T Under Water Environment: a Brief of Explored Work and Future Scope
%J International Conference on Advances in Emerging Technology
%@ 0975-8887
%V ICAET2016
%N 2
%P 12-17
%D 2016
%I International Journal of Computer Applications

Due to the limitations of weather effects in the terrestrial environment, underwater communication has been chosen as a method of high efficiency and security. It has been emerged as a promising technique due to low power consumption, compact size and better data rate. Despite of the benefits it offers, this technique has various lagging effects like it has high bit error rate, battery power and bandwidth limitation and many more which are discussed in this paper and the means to combat those limitations have also been discussed.

  1. Itsuro Morita and Masatoshi Suzuki, "Innovations for Future Optical Submarine Cable Systems",15th Opto-Electronics and Communications Conference (OECC2010) Technical Digest, Sapporo Convention Center, Japan pp. 46-47(invited), July 2010.
  2. "Underwater Acoustic Digital Signal Processing and Communication Systems, "Robert Istepanian, Milica Stojanovic, kluwer academic publishers, 2002nd Edition .
  3. Alok Ranjan,Ashish Ranjan,"Underwater Wireless Communication Network",Advance in Electronic and Electric Engineering ISSN 2231-1297, Volume 3, pp. 41-46, November 1, 2013.
  4. Ian F. Akyildiz,Dario Pompili,Tommaso Melodia, "Challenges for Efficient Communication in Underwater Acoustic Sensor Networks".
  5. J. G. Proakis, E. M. Sozer, J. A. Rice, M. Stojanovic, "Shallow water acoustic networks", IEEE Communications Magazine, pp. 114– 119, Nov. 2001.
  6. Nasri Nejah, Andrieux Laurent, Kachouri Abdennaceur, Samet Mounir, "Efficient encoding and decoding schemes for wireless underwater communication systems", 7th International Multi-Conference on Systems, Signals and Devices IEEE 2007.
  7. Milica Sto janovic, "Underwater Acoustic Communication", Department of Electrical and Computer Engineering Northeastern University, the Wiley Encyclopedia of Electrical and Electronics Engineering
  8. Nejah Nasri, Laurent Andrieux and all, "VHDL-AMS Modelling of Underwater Channel", Australian Journal of Basic and Applied Sciences, 3(4): 3864-3875, 2009 ISSN 1991- 8178. 2009.
  9. Ashish Kumar Das, Arpita Ghosh, A. M. Vibin and Shanthi Prince, "Underwater Communication System For Deep Sea Divers Using Visible Light".
  10. J. M. Khan et al, "Wireless Infrared Communications", Proc. Of the IEEE, Vol. 85, no. 2, pp 265-298, Feb. 1997.
  11. Wei Han, Jianguo Huang, Min Jiang, "Performance Analysis of Underwater Digital Speech Communication System Based on LDPC Codes " pp 567-70, IEEE 2009.
  12. Wang yan, Huang Jian-guo, Li Fan, "Fast search algorithm of adaptive code-book for speech coding", computer engineering and applications, pp. 69-71, 2007.
  13. J. Xu, L. Chen, I. Djurdjevic, S. Lin, K. Abdel-Ghaffar, "Construction of regular and irregular LDPC codes: geometry decomposition and masking", IEEE trans. Info. Theory, pp. 121-134, Jan. 2007.
  14. Sui Tianyu, Yuan Zhaokai, Li Yu,Sun Guiqing, Huang Haining, Zhang Chunhua,"A Coherent Underwater Acoustic Communication System Based on Joint Iterative Equalization and Decoding Algorithm" pp 73-76, IEEE 2010.
  15. I. F. Akyildiz, D. Pompili, T. Melodia, "Underwater Acoustic Sensor Networks: Research Challenges," Ad Hoc Networks (Elsevier), vol. 3(3), pp. 257-259, May 2005.
  16. Kilfoyle, D. B and Baggeroer, A. B, "The State Of The Art In Underwater Acoustic Telemetry", IEEE Journal of Oceanic Engineering, Publisher, Location, pp. 4-27, 2000.
  17. Yan Zhenhua, Huang Jianguo, Han Jing Ran Maohua," System on High-speed Underwater Acoustic Communication with Multi-carrier", pp 470-473, ICSP 2008.
  18. Jianguo Huang, Jing Han, Wei Su, "A Multiuser Chip-Rate Equalization Algorithm for CDMA Underwater Communication Systems".
  19. E. M. Sozer, M. Stojanovic, J. G. Proakis, "Underwater acoustic networks", J. Oceanic Eng. ,25,pp. 72-83, IEEE 2000.
  20. J. G. Proakis, E. M. Sozer, A. Rice et al. , "Shallow Water Acoustic Networks", IEEE Comm. Magazine,39,pp. 114- 119,2001.
  21. D. B. Kilfoyle and A. B. Baggeroer, "The state of the art in underwater acoustic telemetry", IEEE J. Oceanic Eng. , 25, pp. 4-27, 2000.
  22. M. Stojanovic, L. Freitag, "Hypothesis-feedback equalization for direct-sequence spread-spectrum underwater communications", IEEE, oceans, pp. 123-129, 2000.
  23. Tong Xuejian, Luo Tao, "Theory and application of OFDM mobile communication technology", Beijing: Post & Telecommunication Press. 2003.
  24. Podila Swathi, Shanthi Prince, "Designing Issues in Design of Underwater Wireless Optical Communication System", International Conference on Communication and Signal Processing, India, pp 1440-45, April 3-5, 2014.
  25. G. S. Kantaris and N. A. Makris, "Underwater Wireless In-Pipe Communications System", pp 1945-50, IEEE 2015.
  26. S. Climent, A. Sanchez, J. V. Capella, N. Merantia, J. J. Serrano, "Underwater Acoustic Wireless Sensors Networks: Advances and Future Trends in Physical, MAC and Routing Layers", Sensors, 14, pp. 795-833, 2014.
  27. Wenli Lin, Deshi Li, Ying Tan, Jian Chen, Tao Sun, "Architecture of Underwater Acoustic Sensor Networks :A Survey", First International Conference on Intelligent Networks and Intelligent Systems, IEEE, pp 155-159, 2008
  28. Shuxiang Guo, Zixin Zhao, "An Acoustic Communication System for Multiple Underwater Vehicles Based on DS-CDMA"' Proceedings of the 2009 IEEE International Conference on Information and Automation, , Zhuhai/Macau, China pp 319-323, June 22 -25, 2009
  29. Wonwoo Lee, Jun-Ho Jeon and Sung-Joon Park, "Micro-Modem for Short-Range Underwater Communication Systems", IEEE 2014
  30. Mohammad-Ali Khalighi, Chadi Gabriel, Tasnim Hamza, Salah Bourennane, Pierre Leon, Vincent Rigaud, "Underwater Wireless Optical Communication; Recent Advances and Remaining Challenges", pp 1-4, ICTON 2014
  31. L. J. Johnson, R. J. Green, and M. S. Leeson, "Underwater optical wireless communications: depth dependent variations in attenuation," Applied Optics, vol. 52, no. 33, pp. 7867–7873, Nov. 2013.
  32. Y. Dong, S. Tang, and X. Zhang, "Effect of random sea surface on downlink underwater wireless optical communications," IEEE Communications Letters, vol. 17, no. 11, pp. 2164–2167, Nov. 2013.
  33. F. Hanson and M. Lasher, "Effects of underwater turbulence on laser beam propagation and coupling into single-mode optical fiber," Applied Optics, vol. 49, no. 16, pp. 3224–3230, May 2010.
  34. C. Gabriel, M. A. Khalighi, S. Bourennane, P. Leon, and V. Rigaud, "Monte-carlo-based channel characterization for underwater optical communication systems," IEEE/OSA Journal of Optical Communications and Networking, vol. 5, no. 1, pp. 1–12, Jan. 2013
  35. Hiroshi Yoshida, Tadahiro Hyakudome, Shojiro Ishibashi, Hiroshi Ochi, Kenichi Asakawa, Takafumi Kasaya, Takashi Saito, Shogo Okamoto, "Study on Land-to-Underwater communication Toward Underwater Mineral Resorces Exploration System Development".
  36. Andrew Tennenbaum, Maegan Dyakiw, Jun-Hong Cui , Zheng Peng, "Application of Low Cost Optical Communication Systems to Underwater Acoustic Networks" 11th International Conference on Mobile Ad Hoc and Sensor Systems ,pp 755-758, IEEE 2014.
  37. Wei Wei, Hu Xiaoyi, Wang Deqing, Xu Ru, Sun Haixin, "Performance Comparison of Time Synchronization Algorithms for OFDM Underwater Communication System", pp 104-107, IEEE 2007.
  38. Xiaoyi Hu, Ru Xu, Wei Wei, Jing Liu,Yongjun Xie,"A novel scheme of Timing Synchronization For OFDM Underwater Communication System", IEEE 2008.
  39. Guangliang Ren; Yilin Chang "Synchronization method based on a new constant envelop preamble for OFDM systems", Broadcasting, IEEE Transactions on Volume 51, Issue 1, pp:139 -143,March 2005
  40. Wang Ding Xu Jiadong, "An Adaptive OFDM System Synchronization Algorithm" China Information Security, pp77-79,2006.
  41. K. Fazel,S. Kaiser, "Multi-Carrier and Spread Spectrum Systems", John Wiley &Ltd, copyright 2003.
  42. Hui Fang, Xiaoyi Hu, Ru Xu,"An Implementation of time and frequency synchronization for Carrier Interferometry OFDM in an Underwater Acoustic Channel" ,Pacific-Asia Conference on Circuits, Communications and System, pp 23-26, IEEE 2009.
  43. Yuan fei, Chen shengli, Lin xizhou, Cheng en, "Time-Frequency Synchronization Method for Multi-Point Underwater Acoustic Communication System", Proceedings of the 29th Chinese Control Conference, Beijing, China pp 4143-4146, July 29-31, 2010.
  44. Mingsong Chen, Tiansong Li, shengyuan zhou , "The Implementation of PPM in Underwater Laser Communication System", pp 1901-1903, IEEE 2006.
  45. Abhijit Biswas,Victor Vilnrotter,William H. Farr,D. Fort,and E. Sigman, "Pulse position modulated (PPM) ground receiver design for optical communications from deep space," Proc. SPIE 4635, 224 ,2002.
  46. C. Gabriel, M. A. Khalighi, S. Bourennane, P. Leon, and V. Rigaud, "Misalignment considerations on point-to-point underwater wireless optical links," IEEE oceans conference, bergen, Norway, June 2013
  47. J. A. Simpson, B. L. Hughes, and J. F. Muth, "Smart transmitters and receivers for underwater free-space optical communication," IEEE Journal on Selected Areas in Communications, vol. 30, no. 5, pp. 964–974, June 2012.
  48. B. Cochenour, L. Mullen, and J. Muth, "Temporal response of the underwater optical channel for high-bandwidth wireless laser communications," IEEE Journal of Oceanic Engineering, vol. 38, no. 4, pp. 730–742, Oct. 2013.
  49. Charmane V. Caldwell, Damion D. dunlap, Emmanuel G. Collins jr. , "Motion planning for an autonomous underwater vehicle via sampling based model predictive control", IEEE 2010.
Index Terms

Computer Science
Information Sciences


Underwater Communication Coded Division Multiple Access (cdma) Orthogonal Frequency Division Multiplexing (ofdm) Media Access Control (mac) Field Programmable Gate Array (fpga).