Accurate differential global positioning system via fuzzy logic Kalman filter sensor fusion technique

Kobayashi K.; Cheok K.C.

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Accurate differential global positioning system via fuzzy logic Kalman filter sensor fusion technique

机译：基于模糊逻辑卡尔曼滤波传感器融合技术的精确差分全球定位系统

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The ability to determine an accurate global position of a vehicle has many useful commercial and military applications. The differential global positioning system (DGPS) is one of the practical navigation tools used for this purpose. However, the DGPS has limitations arising from slow updates, signal interference, and limited accuracy. This paper describes how vehicle rate sensors ran be used to help a DGPS overcome these limitations. The theoretical background for the sensor fusion is based on the principle of Kalman filtering and a fuzzy logic scheme. Validity of the method was verified by using experimental data from an actual automobile navigating around an urban area. The results demonstrated that the path of the automobile can be continuously traced with high accuracy and repeatability, in spite of the limitations of the DGPS.

机译：确定车辆的准确全球位置的能力具有许多有用的商业和军事应用。差分全球定位系统（DGPS）是用于此目的的实用导航工具之一。但是，DGPS具有更新缓慢，信号干扰和精度受限的局限性。本文介绍了如何使用车速传感器来帮助DGPS克服这些限制。传感器融合的理论背景基于卡尔曼滤波原理和模糊逻辑方案。该方法的有效性通过使用在市区内行驶的实际汽车的实验数据进行了验证。结果表明，尽管DGPS存在局限性，但仍可以以高精度和可重复性连续跟踪汽车的行驶轨迹。

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《IEEE Transactions on Industrial Electronics》 |1998年第3期|P.510-518|共9页
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Kobayashi K.; Cheok K.C.;
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正文语种 eng
中图分类无线电电子学的应用;
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入库时间 2022-08-17 13:03:24

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Accurate differential global positioning system via fuzzy logic Kalman filter sensor fusion technique

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