한국산학기술학회논문지 (Journal of the Korea Academia-Industrial cooperation Society)

  • 제16권8호
  • /
  • Pages.5571-5578
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  • 2015
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  • 1975-4701(pISSN)
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  • 2288-4688(eISSN)
한국산학기술학회 (The Korea Academia-Industrial cooperation Society)
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수중통신의 수직채널에서 Alamouti 기반 MIMO-OFDM 분석

Alamouti MIMO-OFDM-based analysis in the vertical channel of the underwater communication

  • 조병록 (순천대학교 전자공학과) ;
  • 맹기윤 (순천대학교 전자공학과)
  • Cho, Byung-Lok (Department of Electronic Engineering, Sunchon University) ;
  • Maeng, Gi-Yoon (Department of Electronic Engineering, Sunchon University)
  • 투고 : 2015.05.26
  • 심사 : 2015.08.06
  • 발행 : 2015.08.31
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초록

본 논문에서는 수중 수직통신채널 환경에서 Alamouti를 이용한 MIMO-OFDM 방식을 분석하였다. 수중 수직통신채널은 수중환경에 적합한 전달손실과 다중경로손실 등을 고려해야 해서 수중통신에서 통신 성능과 효율을 향상할 수 있는 방안이 필요하다. 따라서 본 논문은 각 손실을 고려한 실질적인 모의 수중통신 환경을 구현하기 위해, 오차를 유발하는 환경에서 다중경로 손실, 전달손실, 도플러확산을 고려하여 모델링하였고, 모델링된 임펄스응답에 대한 채널 다중경로 프로파일을 Alamouti STBC 방식의 MIMO-OFDM 시스템을 통하여 시뮬레이션 했다. 본 논문에서 제안한 수중 수직통신채널에서 모델링한 Alamouti STBC 방식의 MIMO-OFDM 시스템 2Tx-2Rx 방식이 2Tx-1Rx 방식에 비하여 $10^{-3}$ BER 기점을 기준으로 약 3~5 dB 가량의 이득을 얻었다.

In this paper, we analyzed Alamouti based the MIMO-OFDM system in an underwater vertical communication channels. These in consideration both the transmission loss the multipath loss which is suitable for underwater environment are necessary method to improve the efficiency and communication performance in underwater communication. This paper is modeled in an environment that caused the error, considered each simulated the multi-path loss, transmission loss, the Doppler spread in order to implement a practical communication environment and simulated through the MIMO-OFDM system of Alamouti STBC method. The MIMO-OFDM system 2Tx-2Rx of Alamouti STBC scheme in underwater vertical communication system is obtained about 3~5 dB gain as compare with its 2Tx-1Rx scheme with reference $10^{-3}$ BER.

키워드

참고문헌

  1. Hyeong-Won Jeon, Su-Je Lee, and Heung-No Lee "Underwater Channel Analysis and Transmission Method Research via Coded OFDM" The Korean Institute of Communications and Information Sciences, 2011.4 DOI: http://dx.doi.org/10.7840/KICS.2011.36B.5.573
  2. Yo-woong Im, and Hee-hoon Kang "Performance analysis of an adaptive OFDM over an underwater acoustic channel", 2010.09
  3. Dong-Yeong Jeong, Sea-Moon Kim, Sung-Hoon Byun, and Yong-Kon Lim "A Study on the Characteristics of Underwater Sound Transmission by Short-term Variation of Sound Speed Profiles in Shallow-Water Channel with Thermocline" The Journal of the Acoustical Society of Koera, 2014.11 DOI: http://dx.doi.org/10.7776/ASK.2015.34.1.020
  4. Kyeng-Beak Ryu "Analysis of Channel Fluctuation in Underwater Communication and its Effect on Communication Performance" Pukyong National University, 2009.2
  5. Se-Hyun Oh, Hyeon-su Kim, J. S. Kim, Jung-Hong Cho, Jae-hak Chung, and H. C. Song "Performance Analysis of Underwater Acoustic Communication Systems Using Underwater Channel Simulation Tool" The Journal of the Acoustical Society of Korea, 2012. DOI: http://dx.doi.org/10.7776/ASK.2012.31.6.373
  6. Joon-suk Kim, Il-suek Koh, and Youg-shik Lee "Underwater Acoustic Communication Channel Modeling Regarding Magnitude Fluctuation Based on Ocean Surface Scattering Theory and BELLHOP Ray Model and Its Application to Passive Time-reversal Communication" The Journal of the Acoustical Society of Korea, 2013. DOI: http://dx.doi.org/10.7776/ASK.2013.32.2.116