This paper addresses the extremal problem of the null subcarriers based Doppler scale estimation in underwater acoustic (UWA) orthogonal frequency division multiplexing (OFDM) communication. The cost function cons...This paper addresses the extremal problem of the null subcarriers based Doppler scale estimation in underwater acoustic (UWA) orthogonal frequency division multiplexing (OFDM) communication. The cost function constructed of the total energy of null subcarriers through discrete Fourier transform (DFT) is proposed. The frequencies of null subcarriers are identified from non-uniform Doppler shift at each tentative scaling factor. Then it is proved that the cost function can be fitted as a quadratic polynomial near the global minimum. An accurate Doppler scale estimation is achieved by the location of the global scarifying precision and increasing the computation minimum through polynomial interpolation, without complexity. A shallow water experiment is conducted to demonstrate the performance of the proposed method. Excellent performance results are obtained in ultrawideband UWA channels with a relative bandwidth of 67%, when the transmitter and the receiver are moving at a relative speed of 5 kn, which validates the proposed method.展开更多
Time reversal mirror (TRM) can use the physical characteristics of the underwater acoustic (UWA) channel to focus on the desired user in multi-user UWA communication. The active average sound intensity (AASI) de...Time reversal mirror (TRM) can use the physical characteristics of the underwater acoustic (UWA) channel to focus on the desired user in multi-user UWA communication. The active average sound intensity (AASI) detector can estimate all azimuths of users with the same frequency band at the same time in order to achieve directional communication by vector combination. Space-division multiple access (SDMA) based on TRM combined with the AASI detector is proposed in this paper, which can make the capacity of the code division multiple access (CDMA) UWA system significantly increase. The simulation and lake test results show that the 7-user UWA multi-user system can achieve low bit error communication.展开更多
In this paper,we consider the problem of Doppler tracking and compensation for a direct sequence spread spectrum(DSSS)signal in underwater acoustic(UWA)communication.Since the dynamic property of the UWA channel and t...In this paper,we consider the problem of Doppler tracking and compensation for a direct sequence spread spectrum(DSSS)signal in underwater acoustic(UWA)communication.Since the dynamic property of the UWA channel and the long duration of DSSS signals result in significant Doppler spread that severely distorts the propagated signal,Doppler tracking and compensation are required.Based on the ultra-wideband property of UWA signal,the Doppler spread not only results in the frequency shift,but also changes the signal duration.Therefore,the accurate estimation of the signal expansion/compression in the time domain can reflect the Doppler spread.Accordingly,we present a Doppler tracking and compensation algorithm for a DSSS signal operating on the correlation output of passband signal at a symbol-by-symbol basis.Note that the carrier frequency of UWA communication is around several kilohertz,and thus the time delay estimation can be performed on the passband to improve the accuracy.Furthermore,the prior information of Doppler limit is used to refine the resolution of delay estimation and achieve sequential estimation.To compensate the correlation magnitude distortion induced by the velocity variation,the local reference signal is selected adaptively based on the filtered Doppler factor.Simulation results demonstrate that the proposed passband Doppler tracking algorithm achieves a superior performance compared with the conventional receiver.展开更多
基金supported by the National Natural Science Foundation of China(6120109661471137+4 种基金61501061)the Qing Lan Project of Jiangsu Province,the Science and Technology Program of Changzhou City(CJ20130026CE20135060CE20145055)the State Key Laboratory of Ocean Engineering(Shanghai Jiao Tong University)(1316)
文摘This paper addresses the extremal problem of the null subcarriers based Doppler scale estimation in underwater acoustic (UWA) orthogonal frequency division multiplexing (OFDM) communication. The cost function constructed of the total energy of null subcarriers through discrete Fourier transform (DFT) is proposed. The frequencies of null subcarriers are identified from non-uniform Doppler shift at each tentative scaling factor. Then it is proved that the cost function can be fitted as a quadratic polynomial near the global minimum. An accurate Doppler scale estimation is achieved by the location of the global scarifying precision and increasing the computation minimum through polynomial interpolation, without complexity. A shallow water experiment is conducted to demonstrate the performance of the proposed method. Excellent performance results are obtained in ultrawideband UWA channels with a relative bandwidth of 67%, when the transmitter and the receiver are moving at a relative speed of 5 kn, which validates the proposed method.
基金supported by the National Natural Science Foundation of China(6147113751179034)+3 种基金the Ships Pre-research Support Technology Fund(13J3.1.5)the Natural Science Foundation of Heilongjiang Province(F201109)the Innovation Talents of Science and the Technology Research Projects of Harbin(2013RFQXJ101)the National Defense Basic Technology Research(JSJC2013604C012)
文摘Time reversal mirror (TRM) can use the physical characteristics of the underwater acoustic (UWA) channel to focus on the desired user in multi-user UWA communication. The active average sound intensity (AASI) detector can estimate all azimuths of users with the same frequency band at the same time in order to achieve directional communication by vector combination. Space-division multiple access (SDMA) based on TRM combined with the AASI detector is proposed in this paper, which can make the capacity of the code division multiple access (CDMA) UWA system significantly increase. The simulation and lake test results show that the 7-user UWA multi-user system can achieve low bit error communication.
基金This work was supported by National Natural Science Foundation of China(Nos.61701132 and 61601134)National Natural Science Foundation of Heilongjiang(No.YQ2019D003)China Scholarship Council(No.CSC201906680039).
文摘In this paper,we consider the problem of Doppler tracking and compensation for a direct sequence spread spectrum(DSSS)signal in underwater acoustic(UWA)communication.Since the dynamic property of the UWA channel and the long duration of DSSS signals result in significant Doppler spread that severely distorts the propagated signal,Doppler tracking and compensation are required.Based on the ultra-wideband property of UWA signal,the Doppler spread not only results in the frequency shift,but also changes the signal duration.Therefore,the accurate estimation of the signal expansion/compression in the time domain can reflect the Doppler spread.Accordingly,we present a Doppler tracking and compensation algorithm for a DSSS signal operating on the correlation output of passband signal at a symbol-by-symbol basis.Note that the carrier frequency of UWA communication is around several kilohertz,and thus the time delay estimation can be performed on the passband to improve the accuracy.Furthermore,the prior information of Doppler limit is used to refine the resolution of delay estimation and achieve sequential estimation.To compensate the correlation magnitude distortion induced by the velocity variation,the local reference signal is selected adaptively based on the filtered Doppler factor.Simulation results demonstrate that the proposed passband Doppler tracking algorithm achieves a superior performance compared with the conventional receiver.
