3D Localization for Sub-Centimeter Sized Devices

IF 0.7 Q4 TELECOMMUNICATIONS

GetMobile-Mobile Computing & Communications Review Pub Date : 2020-01-10 DOI:10.1145/3379092.3379105

R. Nandakumar, Vikram Iyer, Shyamnath Gollakota

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引用次数: 1

Abstract

Recent years have seen significant advances in wireless localization [1,2]. However, existing solutions do not meet the requirements for size-constrained IoT applications. The battery life of common radio technologies, such as BLE, LoRa, ultra-wideband (UWB) and Wi-Fi, is less than 5 months when run with small coin and button cell batteries. This shorter battery life limits the adoption of tracking solutions based on these radio technologies by making them inconvenient for consumer applications and infeasible for large scale commercial deployments. Requiring large batteries, on the other hand, prevents scaling down the size of IoT devices. While RFID tags are attractive from a power and size perspective, they have a limited range and do not work consistently through walls and other barriers. Consumers often deploy devices in rooms throughout homes and, similarly, commercial deployments in settings like hospitals require covering multiple patient rooms with a variety of obstructions and walls. Achieving localization in these scenarios would therefore require readers in every room, which significantly increases deployment cost.

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亚厘米尺寸设备的三维定位

近年来，无线定位技术取得了重大进展[1,2]。然而，现有的解决方案不能满足尺寸受限的物联网应用的要求。普通无线电技术，如BLE、LoRa、超宽带(UWB)和Wi-Fi，在使用小型硬币和纽扣电池时，电池寿命不到5个月。这种较短的电池寿命限制了基于这些无线电技术的跟踪解决方案的采用，因为它们不方便消费者应用，也不适合大规模的商业部署。另一方面，对大型电池的需求阻碍了物联网设备尺寸的缩小。虽然RFID标签从功率和尺寸的角度来看很有吸引力，但它们的范围有限，并且不能始终通过墙壁和其他障碍物工作。消费者通常将设备部署在整个家庭的房间中，类似地，在医院等环境中的商业部署需要覆盖多个带有各种障碍物和墙壁的病房。因此，在这些场景中实现本地化需要每个房间都有阅读器，这大大增加了部署成本。

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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