Publication: An effective indoor positioning system by modified linearized least square approach using UWB technology
Date
2024
Authors
Jumaah A.-N.K.
Hashim W.
Alami A.K.
Journal Title
Journal ISSN
Volume Title
Publisher
Springer Science and Business Media Deutschland GmbH
Abstract
Ultra-wideband is among the key radio spectrums that can be utilized for indoor localization. It is a short-range radio frequency (RF) spectrum that can be utilized to locate the exact position of devices, people, and assets for wireless communication. However, it has a significant limitation in that it requires a non-line-of-sight (NLOS) mitigation and identification techniques to precisely locate a mobile station in a hard indoor environment (more obstacles) between the anchor nodes and mobile station. The NLOS approach will make positioning more difficult. The goals of this work are (i) to find the minimum required number of anchor nodes for cost and time saving have been fixed; (ii) to ensure that the designed system?s precision is maintained, it must be compatible with a variety of indoor conditions. In this paper, we develop a novel indoor positioning system algorithm called enhanced linearized least square (ELLS) that employs UWB technology without relying on an NLOS credentials technique. In this paper, we use real-world trials to test and validate the system we have developed. The developed system does have a mean positioning accuracy of 0.46 m2 of mean square error (MSE) in a harsh environment. It surpasses the majority of indoor positioning systems currently available while being less complex, less expensive, and more accurate. ? The Author(s), under exclusive licence to Societ� Italiana di Fotogrammetria e Topografia (SIFET) 2023.
Description
Keywords
accuracy assessment , algorithm , least squares method , positioning system , sensor