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Signal processing in underwater acoustic communication system for manned deep submersible "Jiaolong" 被引量:8
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作者 ZHU Weiqing ZHU Min +4 位作者 WU Yanbo YANG Bo XU Lijun FU Xiang PAN Feng 《Chinese Journal of Acoustics》 2013年第1期1-15,共15页
For the first time in the world, underwater acoustic transmission of images, human voice, data and texts between vehicle under 7000 m depth and surface ship was accomplished by underwater acoustic communication system... For the first time in the world, underwater acoustic transmission of images, human voice, data and texts between vehicle under 7000 m depth and surface ship was accomplished by underwater acoustic communication system of manned deep submersible Jiaolong'. In this paper, signal processing in underwater acoustic communication system for manned deep submersible "Jiaolong" is introduced. (1) Four communication methods are integrated to meet different needs: 1) coherent underwater acoustic communication, with a variable transmission rate from 5 kbps to 15 kbps, to transmit images. 2) Non-coherent underwater acoustic com- munication, with a transmission rate 300 bps, to transmit texts, instructions, and sensor data. 3) Spread spectrum underwater acoustic communication, with a transmission rate 16 bps, to transmit instructions. 4) Underwater voice communication, using single sideband modulation to transmit hmnan voice. (2) Signal processing method in coherent communication mainly consists of concatenation of decision feedback equalizer and Turbo decoder, and wavelet based image compression with fixed length coding. In the equalizer, Doppler compensation, multi- channel combining and equalizer coefficients updating are all using fast self-optimized adaptive algorithm. (3) A linear hydrophone array is lowered from the mother ship to certain depth, and spatial diversity combining technology is adopted. (4) Diving trials of "Jiaolong" were carried out in Pacific Ocean. The communication range can cover nearly all ocean depth. One optical/acoustic image can be transmitted in 7 or 14 seconds. 展开更多
关键词 Jiaolong Signal processing in underwater acoustic communication system for manned deep submersible DEEP DFE Figure QPSK SNR
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Signal processing for noncoherent underwater acoustic communication approaching channel capacity 被引量:4
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作者 WU Yanbo ZHU Min +1 位作者 ZHU Weiqing XING Zeping 《Chinese Journal of Acoustics》 2014年第4期337-347,共11页
Noncoherent underwater acoustic communication channel in adverse conditions is modeled as a phase-random Rayleigh fading channel,and its capacity curve is derived.To approach the channel capacity curve,the concatenate... Noncoherent underwater acoustic communication channel in adverse conditions is modeled as a phase-random Rayleigh fading channel,and its capacity curve is derived.To approach the channel capacity curve,the concatenated code of the nonbinary LDPC code and the constant weight code is proposed for noncoherent communication which can late be iteratively decoded in the probability domain.Without information of channel amplitude or phase in the receiver,statistic parameters of the respective signal and noise bins were estimated based on the moment estimation method,the posterior probabilities of the constant weight code words were further calculated,and the nonbinary LDPC code was decoded with the nonbinary factor graph algorithm.It is verified by simulations that by utilizing the proposed concatenated code and its processing algorithm,gap to channel capacity curve is reduced by 3 dB when compared to the existing method.Underwater communication experiments were carried out in both deep ocean(vertical communication,5 km)and shallow lake(horizontal communication,near 3 km,delay spread larger than 50 ms),in which the signal frequency band was 6 kHz to10 kHz,and the data transmission rate Was 357 bps.The proposed scheme can work properly in both experiments with a signal-to-noise ratio threshold of 2 dB.The performance of the proposed algorithm Was well verified by the experiments. 展开更多
关键词 LDPC CODE Signal processing for noncoherent underwater acoustic communication approaching channel capacity OOK
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