基于KPCA和ELM的室内定位改进算法

2019 11th International Conference on Wireless Communications and Signal Processing (WCSP) Pub Date : 2019-10-01 DOI:10.1109/WCSP.2019.8928106

Li Lian, Shaobo Xia, Sen Zhang, Qiong Wu, Changqiang Jing

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引用次数: 9

摘要

在基于指纹识别的室内位置估计中使用的接收信号强度(RSS)值受到噪声的影响。固定视距条件点接收到的RSS值服从高斯分布，不符合高斯分布。WIFI信号的传输衰减也是一种非线性衰减。本文提出了一种KPCA- elm联合定位算法，利用KPCA(核主成分分析)的非线性特性允许对原始RSS数据进行替换和降维，构造新的特征。极限学习机(Extreme Learning Machine, ELM)是一种快速高效的单层前馈神经网络算法，用于训练新特征。KPCA-ELM定位算法可以有效降低噪声对RSS值的影响，提高定位精度。实验结果表明，KPCA-ELM算法能有效提高室内定位精度。

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Improved Indoor positioning algorithm using KPCA and ELM

RSS (Received Signal Strength) values which are used in indoor position estimation based on fingerprinting are affected by noise. The RSS value received by the fixed line-of-sight condition points obeys the Gauss distribution and does not match the Gauss distribution. WIFI signal transmission attenuation is also a nonlinear attenuation. This paper presents a joint KPCA-ELM locating algorithm, the use of KPCA (Kernel Principal Component Analysis) of the nonlinear characteristics allow the original RSS data being replaced and dimension reduction, constructing new features. ELM (Extreme Learning Machine) is a fast and efficient single-layer feedforward neural network algorithm for training with new characteristics. KPCA-ELM positioning algorithm can effectively reduce the influence of noise on RSS value and improve the accuracy. The experimental results show that KPCA-ELM algorithm can effectively improve the accuracy of indoor positioning.

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2019 11th International Conference on Wireless Communications and Signal Processing (WCSP)

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