基于差分进化算法的RFID定位

针对传统射频识别(RFID)定位过程繁琐，系统定位精确度低以及计算较为复杂的问题，提出一种利用差分进化(DE)算法优化RFID定位精确度的方法。该方法首先随机初始参考标签的位置坐标，通过接收信号强度(RSS)值计算出阅读器与标签之间的测量距离，再通过优化阅读器与参考标签和待测标签之间的距离误差，估计出离待测标签最近的位置坐标，最后与经典LANDMARC定位系统做比较。仿真结果表明，经典LANDMARC定位系统的平均定位误差为1.115 8 m，而利用差分进化算法优化后的系统平均定位误差为0.001 2 m，从而证明利用差分进化算法优化RFID定位的方法是有效的。

RFID localization based on differential evolution algorithm

Aiming at the problems of conventional Radio Frequency Identification(RFID) positioning process, Differential Evolution(DE) algorithm is proposed to optimize the positioning accuracy of RFID. This method first randomly initializes reference tag location coordinates, calculates the distance between reader and tag by using Received Signal Strength(RSS) value. Then it estimates the location coordinates of the nearest label under test by optimizing the reader and the distance error between the reference labels and tags under test. Finally, it is compared with classical LANDMARC positioning systems. The simulation results show that the average positioning error of the classical LANDMARC positioning system is 1.115 8 m, and that of the system optimized by DE algorithm is 0.001 2 m, which proves that the method of RFID positioning optimized by DE algorithm is effective.