多芯光纤形状传感误差分析

    Error analysis of multi-core fiber shape sensing

    • 摘要: 多芯光纤形状传感的重构精度受多种因素影响,目前尚缺乏系统性误差分析。建立了三芯光纤在单向弯曲、U形弯曲、S形弯曲以及三维空间弯曲下的有限元模型,提取了各模型下纤芯的轴向应变数据,基于Frenet-Serret 框架下的三维重构算法进行了形状还原,分析了重构误差与采样分辨率、弯曲形状、光纤长度的关系。结果表明,形状重构误差与采样分辨率呈指数关系,与光纤整体应变呈显著线性正相关;形状重构的单位长度误差具有尺度不变性。研究结果可为多芯光纤形状传感算法的设计提供理论与方法支撑,对于不同应用场景下按需配置测试资源具有一定的工程价值。

       

      Abstract: The reconstruction accuracy of multi-core fiber shape sensing is influenced by multiple factors, and a systematic error analysis is currently lacking. Finite element models of a three-core fiber were established under unidirectional bending, U-shaped bending, S-shaped bending, and three-dimensional spatial bending. The axial strain data of the fiber cores under each model were extracted. Shape reconstruction was performed using a three-dimensional reconstruction algorithm based on the Frenet-Serret framework. The relationships between reconstruction error and factors such as sampling resolution, bending shape, and fiber length were analyzed. The results indicate that the shape reconstruction error exhibits an exponential relationship with sampling resolution and a significantly linear positive correlation with the overall fiber strain. Furthermore, the unit-length error of shape reconstruction demonstrates scale invariance. The findings of this study provide theoretical and methodological support for the design of multi-core fiber shape sensing algorithms and hold certain engineering value for on-demand configuration of testing resources in different application scenarios.

       

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