Underwater Wireless Communication System: Acoustic Channel Modeling and Carry Frequency Identification
This paper demonstrates the modeling of seawater acoustic channel to obtain the optimum carrier frequency for autonomous underwater vehicle (AUV) wireless communication system. The wireless communication distance of an AUV with its control vessel changes due to the mission at different depths. Cur...
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2012
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my.ums.eprints.69732017-10-11T06:50:20Z https://eprints.ums.edu.my/id/eprint/6973/ Underwater Wireless Communication System: Acoustic Channel Modeling and Carry Frequency Identification Hou, Pin Yoong Kiam, Beng Yeo Tze, Kenneth Kin Teo Wei, Loong Wong TK Electrical engineering. Electronics Nuclear engineering This paper demonstrates the modeling of seawater acoustic channel to obtain the optimum carrier frequency for autonomous underwater vehicle (AUV) wireless communication system. The wireless communication distance of an AUV with its control vessel changes due to the mission at different depths. Current AUV is designed with an operating depth of 0 to 2000m. Therefore, the existing model had limitation when the operational depth varies based on the mission assignment. This is because the optimum frequency to noise ratio changes with respect to the distance of the transmission. To overcome the existing modeling method, this paper presents a ameliorate method to determine the optimum carrier frequency for the AUV wireless communication system. The mathematical model with the relation of noise, distance and frequency is formulated and simulation carried out to set the optimum frequencies at various distances. From the frequency band, the average frequency is identified as the optimum transmission carries frequency. The determined frequency will be utilized for further hardware improvement. United Kingdom Simulation Society 2012-06 Article PeerReviewed text en https://eprints.ums.edu.my/id/eprint/6973/1/Underwater_Wireless_.pdf Hou, Pin Yoong and Kiam, Beng Yeo and Tze, Kenneth Kin Teo and Wei, Loong Wong (2012) Underwater Wireless Communication System: Acoustic Channel Modeling and Carry Frequency Identification. International Journal of Simulation: Systems, Science and Technology, 13 (3C). pp. 1-6. ISSN 1473-8031 http://ijssst.info/Vol-13/No-3C/paper1.pdf |
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TK Electrical engineering. Electronics Nuclear engineering Hou, Pin Yoong Kiam, Beng Yeo Tze, Kenneth Kin Teo Wei, Loong Wong Underwater Wireless Communication System: Acoustic Channel Modeling and Carry Frequency Identification |
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This paper demonstrates the modeling of seawater acoustic channel to obtain the optimum carrier frequency for
autonomous underwater vehicle (AUV) wireless communication system. The wireless communication distance of an AUV with its control vessel changes due to the mission at different depths. Current AUV is designed with an operating depth of 0 to 2000m. Therefore, the existing model had limitation when the operational depth varies based on the mission assignment. This is because the optimum frequency to noise ratio changes with respect to the distance of the transmission. To overcome the existing modeling
method, this paper presents a ameliorate method to determine the optimum carrier frequency for the AUV wireless
communication system. The mathematical model with the relation of noise, distance and frequency is formulated and simulation carried out to set the optimum frequencies at various distances. From the frequency band, the average frequency is identified as the optimum transmission carries frequency. The determined frequency will be utilized for further hardware improvement. |
format |
Article |
author |
Hou, Pin Yoong Kiam, Beng Yeo Tze, Kenneth Kin Teo Wei, Loong Wong |
author_facet |
Hou, Pin Yoong Kiam, Beng Yeo Tze, Kenneth Kin Teo Wei, Loong Wong |
author_sort |
Hou, Pin Yoong |
title |
Underwater Wireless Communication System: Acoustic Channel Modeling and Carry Frequency Identification |
title_short |
Underwater Wireless Communication System: Acoustic Channel Modeling and Carry Frequency Identification |
title_full |
Underwater Wireless Communication System: Acoustic Channel Modeling and Carry Frequency Identification |
title_fullStr |
Underwater Wireless Communication System: Acoustic Channel Modeling and Carry Frequency Identification |
title_full_unstemmed |
Underwater Wireless Communication System: Acoustic Channel Modeling and Carry Frequency Identification |
title_sort |
underwater wireless communication system: acoustic channel modeling and carry frequency identification |
publisher |
United Kingdom Simulation Society |
publishDate |
2012 |
url |
https://eprints.ums.edu.my/id/eprint/6973/1/Underwater_Wireless_.pdf https://eprints.ums.edu.my/id/eprint/6973/ http://ijssst.info/Vol-13/No-3C/paper1.pdf |
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1760229235846283264 |