Abstract
Abstract. Ultra-wideband (UWB) technology has witnessed tremendous development and advancement in the past few years. Currently available UWB transceivers can provide high-precision time-of-flight measurements which corresponds to range measurements with theoretical accuracy of few centimetres. Position estimation using range measurement is determined by measuring the ranges from a rover or a dynamic node, to a set of anchor points with known positions. However, building a flexible and accurate indoor positioning system requires more than just accurate range measurements. The performance of indoor positioning system is affected by the number and the configuration of the anchor points used, along with the accuracy of the anchor positions.This paper introduces LocSpeck, a dynamic ad-hoc positioning system based on the DW1000 UWB transceiver from Decawave. LocSpeck is composed of a set of identical nodes communicating on a common RF channel, forming a fully or partially connected network where the positioning algorithm run on each node. Each LocSpeck node could act as an anchor or a rover, and the role could change dynamically during the same session. The number of nodes in the network could change dynamically, since the firmware of LocSpeck supports adding and removing nodes on-the-fly. The paper compares the performance of the LocSpeck system with commercially available off-the-shelf UWB positioning system. Different operating scenarios are considered when evaluating the performance of the system, including cases where collaboration between the two systems is considered.
Highlights
Indoor positioning and navigation technologies have the potential of transforming users' experience and creating new opportunities for businesses, in the same way the Global Navigation Satellite Systems (GNSS) had changed the outdoor navigation experience and created the consumer navigation industry
Different technologies are available for indoor positioning, including: dead-reckoning using inertial sensors, proximity detection using Bluetooth beacons, Wi-Fi received signal strength (RSS) measurements coupled with either fingerprinting or trilateration, or ultra-wideband (UWB) ranging-based trilateration (Davidson and Piché, 2017)
The aim of this paper is to evaluate the performance of a dynamic ad-hoc UWB-based positioning system, named LocSpeck, based on the DW1000 single chip transceiver from Decawave (Decawave, 2018)
Summary
Indoor positioning and navigation technologies have the potential of transforming users' experience and creating new opportunities for businesses, in the same way the Global Navigation Satellite Systems (GNSS) had changed the outdoor navigation experience and created the consumer navigation industry. Different technologies are available for indoor positioning, including: dead-reckoning using inertial sensors, proximity detection using Bluetooth beacons, Wi-Fi received signal strength (RSS) measurements coupled with either fingerprinting or trilateration, or ultra-wideband (UWB) ranging-based trilateration (Davidson and Piché, 2017). The aim of this paper is to evaluate the performance of a dynamic ad-hoc UWB-based positioning system, named LocSpeck, based on the DW1000 single chip transceiver from Decawave (Decawave, 2018). LocSpeck system supports dynamic and varying network architecture, with variable numbers of nodes, moving in and out the operating range. The ad-hoc system supports dynamic role allocation to the different nodes–allowing each node to act as an anchor or a tag, supporting peer-to-peer ranging capabilities.
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