一种用于远距离应用的绝对线性编码器的新算法和装置

2008 11th International Conference on Optimization of Electrical and Electronic Equipment Pub Date : 2008-05-22 DOI:10.1109/OPTIM.2008.4602407

A. Argeseanu, D. Popovici, O. Cornea, I. Torac

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引用次数: 3

摘要

本文提出了一种新的用于长距离(>100 m)线性绝对编码器的数学算法，该算法使用了比经典二进制编码更强的编码方法。此外，所提出的实现仅使用四个光学传感器，使该方法经济高效。在实验装置上对算法和编码器进行了测试。装置的设计确保了所有相关参数的控制。实验结果还允许通过使用颜色编码和彩色光学传感器，从二进制代数进化到多价代数(Lukasiewicz- Moisil代数)来改进初始算法。

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A new algorithm and device for absolute linear encoders dedicated to long distance applications

This paper proposes a new mathematical algorithm for linear absolute encoder for long distance applications (>100 m). The new algorithm uses a stronger codification method than the classical binary one. Moreover, the proposed implementation uses only four optical sensors which make the method economically efficient. The algorithm and the proposed encoder where tested on an experimental setup. Design of the setup assures the control of all relevant parameters. Experimental results also allow the improvement of the initial algorithm by evolving from binary algebra to the polyvalent algebra (Lukasiewicz- Moisil algebra), using colors coding and color optical sensors.

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2008 11th International Conference on Optimization of Electrical and Electronic Equipment

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