The Partial Modelling of Non-Linear Analog Distance Sensor using Piecewise Newton Polynomials Algorithm to Minimize the Occurrence of Runge's Phenomenon

2021 International Conference on Artificial Intelligence and Mechatronics Systems (AIMS) Pub Date : 2021-04-28 DOI:10.1109/AIMS52415.2021.9466071

Firdaus Aulian Cahyanto, Gutama Indra Gandha, M. A. Heryanto

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引用次数: 1

Abstract

The Sharp GP2Y0A02YK0F is an infrared-based nonlinear distance measuring sensor unit. This sensor categorized as low-cost sensor. Since this sensor has nonlinear characteristic in output voltage made this sensor is not easy to compute the measured distance. The modelling process is one of the solutions to complete this challenge. The Newton polynomial is a robust polynomial method that used in computational purpose. However, the polynomial-based modelling methods are suffered with Runge's phenomenon especially for nonlinear model. The partial modelling method with piecewise Newton polynomials algorithm has been used to minimize the occurrence of Runge's phenomenon. The piecewise Newton polynomials method has been succeeded to generate a nonlinear model and minimize the occurrence of Runge's phenomenon. The low MSE (Mean Squared Error) level by 0.001 and error percentage by 2.38% has been achieved for the generated model. The accuracy level of the final model is 97.62%.

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利用分段牛顿多项式算法对非线性模拟距离传感器进行局部建模以减少龙格现象的发生

夏普GP2Y0A02YK0F是一种基于红外的非线性距离测量传感器。这种传感器属于低成本传感器。由于该传感器在输出电压上具有非线性特性，使得该传感器不易计算被测距离。建模过程是完成这一挑战的解决方案之一。牛顿多项式是一种用于计算目的的鲁棒多项式方法。然而，基于多项式的建模方法存在龙格现象，特别是对于非线性模型。采用分段牛顿多项式算法的局部建模方法，最大限度地减少了龙格现象的发生。采用分段牛顿多项式法建立了非线性模型，使龙格现象最小化。所生成模型的MSE(均方误差)水平低0.001，错误率低2.38%。最终模型的准确率为97.62%。

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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来源期刊

2021 International Conference on Artificial Intelligence and Mechatronics Systems (AIMS)

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