Abstract
Broadband acoustic Doppler current profiler (ADCP) is widely used in agricultural water resource explorations, such as river discharge monitoring and flood warning. Improving the velocity estimation accuracy of broadband ADCP by adjusting the waveform parameters of a phase-encoded signal will reduce the velocity measurement range and water stratification accuracy, while the promotion of stratification accuracy will degrade the velocity estimation accuracy. In order to minimize the impact of these two problems on the measurement results, the ADCP waveform optimization problem that satisfies the environment constraints while keeping high velocity estimation accuracy or stratification accuracy is studied. Firstly, the relationship between velocity or distance estimation accuracy and signal waveform parameters is studied by using an ambiguity function. Secondly, the constraints of current velocity range, velocity distribution and other environmental characteristics on the waveform parameters are studied. For two common measurement applications, two dynamic configuration methods of waveform parameters with environmental adaptability and optimal velocity estimation accuracy or stratification accuracy are proposed based on the nonlinear programming principle. Experimental results show that compared with the existing methods, the velocity estimation accuracy of the proposed method is improved by more than 50%, and the stratification accuracy is improved by more than 22%.
Highlights
Acoustic Doppler current profiler (ADCP) is a popular Doppler sonar used for measuring water velocity and profile discharge in natural and human-made waterways
98% of United States Geological Survey (USGS) non-wading river discharge measurements were performed by ADCP in 2013 [6]
Reference [27] proposes a waveform design method of dual band coherent phase-encoded transmitted signal by dividing the signal spectrum into two. This method enriches the form of the transmitted signal of ADCP, but its estimation performance is still limited by the lack of coherent method, and this method does not consider the adaptation to the application environment
Summary
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