Angular diversity approach to indoor positioning using visible light

Michael T. Taylor, S. Hranilovic
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引用次数: 30

Abstract

A system for indoor localization using partially collimated light from individual LEDs inside a luminary is proposed, simulated and tested experimentally. A simple biconvex lens provides angular diversity to the luminary and generates multiple spatially separated regions of overlapping light which can be resolved with a single detector receiver. This approach provides location information without relying on signal intensity measurements, time-of-flight data or complex imaging approaches. The multiple LEDs available in each luminary are exploited to create a large number of uniquely detectable regions, enabling both low positioning error and low complexity. Using a model based on experimental measurements, in a prototypical 5×5×3 m room the average positioning error is 26.0 cm using 4 luminaries and 12.9 cm with 9 luminaries.
利用可见光进行室内定位的角度分集方法
本文提出了一种利用单个发光二极管的部分准直光进行室内定位的系统,并进行了仿真和实验测试。一个简单的双凸透镜为光源提供角度多样性,并产生多个空间分离的重叠光区域,这些区域可以用单个检测器接收器解决。这种方法提供位置信息,而不依赖于信号强度测量、飞行时间数据或复杂的成像方法。每个灯具中可用的多个led被用于创建大量独特的可检测区域,从而实现低定位误差和低复杂性。利用基于实验测量的模型,在一个原型5×5×3 m房间中,使用4个照明灯时平均定位误差为26.0 cm,使用9个照明灯时平均定位误差为12.9 cm。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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