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中文核心期刊

基于稀疏嵌套垂直阵的水下目标宽带辐射噪声测量方法

Broadband radiated noise measurement method of underwater target by a sparse nested vertical array

  • 摘要: 针对传统嵌套垂直线阵辐射噪声测量中阵列孔径过大且阵元冗余的问题, 提出基于稀疏嵌套垂直线阵的水下目标宽带辐射噪声测量方法。首先, 基于传统嵌套阵阵元复用思想, 采用基于凸优化算法的嵌套阵全阵、全频段恒定束宽波束形成策略, 优化设计2倍频程稀疏嵌套阵列结构, 并得到优化波束形成加权向量; 然后, 利用目标等效声中心与嵌套阵间直达波信道传输函数对加权向量进行修正, 实现恒定束宽波束形成方法与辐射噪声近场测量适配, 提高水下目标辐射噪声声源级测量精度。仿真计算和湖上试验结果均表明, 稀疏嵌套阵列相较于传统嵌套阵列在保证测量性能的同时, 显著缩减了阵列孔径且具有较少的阵元数量, 其辐射噪声测量不确定度约1.9 dB。

     

    Abstract: To address the challenges of large array aperture and high array element redundancy in traditional nested vertical linear arrays for radiated noise measurement, a broadband radiated noise measurement method for underwater targets based on a sparse nested vertical linear array is proposed. Firstly, based on the array element reuse concept of traditional nested arrays, a nested array-integrated constant beamwidth beamforming strategy building upon convex optimization algorithms is adopted to optimize the design of a 2-octave sparse nested array structure, and the optimized beamforming weighting vector is obtained. Then, the weighting vector is modified by using the direct wave channel transfer function between the target’s equivalent sound center and the nested array, so that the constant beamwidth beamforming method can be adapted to the near-field measurement of target radiated noise, and the measurement accuracy of underwater target radiated noise spectrum source level and sound source level is improved. Subsequently, the weighting vector is modified by using the direct wave channel transfer function between the target’s equivalent acoustic center and the nested array, so that the constant beamwidth beamforming method can be adapted to the near-field measurement of target radiated noise, and the measurement accuracy of underwater target radiation noise level. Both simulation calculations and lake test processing results show that compared with the traditional nested array, the sparse nested array significantly reduces the array aperture and has fewer array elements while ensuring the measurement performance. In addition, its uncertainty of radiated noise measurement is about 1.9 dB.

     

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