Sensor calibration using nonparametric statistical characterization of error models

J. Feng, Gang Qu, M. Potkonjak
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引用次数: 10

Abstract

Calibration is the process of identifying and correcting for the systematic bias component of the error in sensor measurements. Traditionally, calibration has usually been conducted by considering a set of measurements in a single time frame and restricted to linear systems with the assumption of equal-quality sensors and single modality. The basis for the new calibration procedure is to construct a statistical error model that captures the characteristics of the measurement errors. Such an error model can be constructed either off-line or on-line. It is derived using the nonparametric kernel density estimation techniques. We propose four alternatives to make the transition from the constructed error model to the calibration model, which is represented by piecewise polynomials. In addition, statistical validation and evaluation methods such as resubstitution, is used in order to establish the interval of confidence for both the error model and the calibration model. Traces of the distance ranging measurements recorded by in-field deployed sensors are used as our demonstrative example.
传感器标定采用非参数统计表征误差模型
校准是识别和纠正传感器测量误差的系统偏差分量的过程。传统上,校准通常是通过考虑单一时间框架内的一组测量来进行的,并且仅限于线性系统,假设传感器质量相等,模态单一。新的校准程序的基础是建立一个统计误差模型,以捕获测量误差的特征。这种误差模型可以离线构建,也可以在线构建。它是使用非参数核密度估计技术导出的。我们提出了四种从构造误差模型过渡到由分段多项式表示的校准模型的方法。此外,为了建立误差模型和校准模型的置信区间,采用了重替换等统计验证和评价方法。现场部署的传感器记录的距离测距测量的轨迹被用作我们的演示示例。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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