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首页> 外文期刊>Sensors Journal, IEEE >Cable Fault Characterization by Time-Domain Analysis From S-Parameter Measurement and Sparse Inverse Chirp-Z Transform
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Cable Fault Characterization by Time-Domain Analysis From S-Parameter Measurement and Sparse Inverse Chirp-Z Transform

机译:通过S参数测量和稀疏反向Chirp-Z变换的时间域分析电缆故障表征

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摘要

Cable fault characterization usually requires time-domain profiles to locate and quantify failures. These profiles may be obtained from S-Parameters measured in the frequency domain through inverse Fourier methods. The Chirp Z Transform is a common approach for obtaining time-domain parameters from measured S-parameters. Most existing methods employ the Inverse Chirp Z Transform by a minimum norm solution, which does not have strong physical support. In this paper, we propose a Sparse Inverse Chirp Z Transform approach, specially designed for sparse time-domain signals representing localized fault locations in cables. Two algorithms are proposed to perform the conversion: OMP and FISTA. Their performances are verified in comparison with reference values, showing good agreement for both simulated and experimental data.
机译:电缆故障表征通常需要时域配置文件来定位和量化故障。可以通过逆傅立叶方法从在频域中测量的S参数获得这些配置文件。 Chirp Z变换是从测量的S参数获取时间域参数的常用方法。大多数现有方法采用逆啁啾Z通过最小规范解决方案进行变换,这没有强大的物理支持。在本文中,我们提出了一种稀疏的逆啁啾Z变换方法,专门设计用于表示电缆中的局部故障位置的稀疏时间域信号。提出了两种算法来执行转换:OMP和Fista。与参考值相比,它们的性能被验证,显示了模拟和实验数据的良好一致性。

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