An Application of Kalman Filtering and Artificial Neural Network with K-NN Position Detection Technique

Hakan Koyuncu, B. Koyuncu
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引用次数: 2

Abstract

RFID technology is one of the important technologies to determine the object locations. Distances are calculated with respect to calibration curves of RSSI amplitudes. The aim of this study is to determine the 2D position of mobile objects in the indoor environment. The importance of the work is to show that localization by using Artificial Neural Network plus Kalman Filtering is more accurate than using classical KNN method. An indoor wireless sensing network is established with strategically stationed RFID transmitter nodes and a mobile object with a RFID receiver node. A fingerprint map is generated and K-Nearest Neighbourhood algorithm (KNN) is deployed to calculate the object locations. Fingerprint coordinates and RSS values received at these coordinates are deployed to set up an Artificial Neural Network (ANN). This network is used to determine the unknown object locations by using RSS values received at these locations. The accuracy of object localization is found to be better with ANN technique than KNN technique. Object coordinates, determined with ANN technique, are subjected to Kalman filtering. The results show that localization accuracies are improved and localization error distances are reduced by 46% with the deployment of ANN + Kalman Filtering.
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卡尔曼滤波和人工神经网络在K-NN位置检测技术中的应用
RFID技术是确定物体位置的重要技术之一。距离是相对于RSSI幅度的校准曲线来计算的。本研究的目的是确定移动物体在室内环境中的二维位置。该工作的重要性在于表明,使用人工神经网络加卡尔曼滤波的定位比使用经典KNN方法更准确。室内无线传感网络由战略部署的RFID发射器节点和具有RFID接收器节点的移动物体建立。生成指纹图,并使用K近邻算法(KNN)来计算对象位置。指纹坐标和在这些坐标处接收的RSS值被部署以建立人工神经网络(ANN)。该网络用于通过使用在这些位置接收的RSS值来确定未知对象位置。与KNN技术相比,ANN技术的目标定位精度更高。利用人工神经网络技术确定目标坐标,并对其进行卡尔曼滤波。结果表明,采用人工神经网络+卡尔曼滤波,定位精度提高,定位误差距离减少46%。
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