温度传感器特性线性化的自适应方法

27th International Spring Seminar on Electronics Technology: Meeting the Challenges of Electronics Technology Progress, 2004. Pub Date : 2004-05-13 DOI:10.1109/ISSE.2004.1490846

M. Marinov, S. Dimirtov, T. Djamiykov, M. Dontscheva

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引用次数: 10

摘要

本文讨论了一种基于迭代构造分段线性近似的自适应方法，用于工业传感器的标定。考虑到传感器的非线性特性，该方法由两步组成:(i)基于迭代Newton-Raphson格式以点向形式计算反转特性;(ii)采用迭代算法来构造计算上倒置的传感器特性的连续改进的分段线性逼近集。所提出方法的主要特点是测量范围的不规则划分，这是由(ii)中执行的误差最小化过程引起的。在此基础上，以“最便宜”的方式构建传感器校准所需的查找表，一方面允许在每个特定测量子范围内实现最佳线性近似，另一方面有效减少必要的存储容量。

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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An adaptive approach for linearization of temperature sensor characteristics

This paper discusses an adaptive approach, based on iterative construction of a piecewise linear approximant, for calibration of industrial sensors. Given the non-linear characteristics of the sensor, the approach consists of two steps: (i) the inverted characteristic is computed in pointwise form on the basis of an iterative Newton-Raphson scheme; (ii) an iterative algorithm is employed in order to construct a continuously improving set of piecewise linear approximations of the computationally inverted sensor characteristic. The main feature of the presented approach is the irregular partitioning of the measurement range, induced from the error minimization procedure performed in (ii). On this basis, the lookup table necessary for calibration of the sensor is constructed in the "cheapest" possible way, allowing on the one hand optimal linear approximation in every particular measurement sub-range and on the other an effective reduction of the necessary storage capacity.

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27th International Spring Seminar on Electronics Technology: Meeting the Challenges of Electronics Technology Progress, 2004.

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