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引用次数: 26
摘要
提出了一种基于IEEE 802.15.4无线标准的无线传感器网络自校准质心定位算法。除了使用接收信号强度(RSSI)或链路质量(LQI)测距精度的常见问题外,应对快速变化的环境也是一项挑战。虽然加权最大似然估计(Weighted Maximum Likelihood Estimation, WMLE)和加权质心定位(Weighted Centroid Localization, WCL)等方法已经取得了很好的精度,但这些方法都假定环境参数,如天线增益、湿度、温度、金属表面、无线电干扰和附近其他物体在定位期间保持不变。为了提高环境不断变化的实际系统的定位精度,本文介绍了自标定质心定位(SCCL)算法。仿真结果表明,与WCL相比,SCCL可将定位误差降低65%。
A self-calibrated centroid localization algorithm for indoor ZigBee WSNs
A self-calibrated centroid localization algorithm is presented for wireless sensor networks based on IEEE 802.15.4 radio standard. Beside common issues in ranging accuracy using either received signal strength (RSSI) or link quality (LQI), it is challenging to cope with the fast changing environments. Although good accuracy has been achieved with methods such as Weighted Maximum Likelihood Estimation (WMLE) and Weighted Centroid Localization (WCL), these methods assume that environmental parameters, such as antenna gain, humidity, temperature, metallic surfaces, radio interference and other objects in the neighborhood remain constant over the localization period. To improve accuracy in a practical system where environment is continuously changing, the Self-Calibrating Centroid Localization (SCCL) algorithm is introduced in this paper. Simulation shows that SCCL can reduce the localization error by 65% as compared to WCL.
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