OpenPosLib: A Library to Achieve Centimetric Geo-Spatial Positioning on a Budget
Positioning systems can be found everywhere, from the navigation system of a car to the smart watch that tracks the running performances of its wearer. With the generalization of positioning systems, new use cases have begun to emerge that require or could benefit from increased accuracy. While the...
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2021
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oai:doaj.org-article:87e1f9b35400494a9f684c7e00a462742021-11-17T00:00:29ZOpenPosLib: A Library to Achieve Centimetric Geo-Spatial Positioning on a Budget2169-353610.1109/ACCESS.2021.3125496https://doaj.org/article/87e1f9b35400494a9f684c7e00a462742021-01-01T00:00:00Zhttps://ieeexplore.ieee.org/document/9603274/https://doaj.org/toc/2169-3536Positioning systems can be found everywhere, from the navigation system of a car to the smart watch that tracks the running performances of its wearer. With the generalization of positioning systems, new use cases have begun to emerge that require or could benefit from increased accuracy. While the technology has been detailed in the literature for several years, the deployment of positioning techniques at the centimeter level has proved challenging. In this paper we propose OpenPosLib, an open source library that aims to fill the gap between all the components needed to achieve a centimetric accuracy and the user-facing application. Our objective is to remove most of the complexity needed to obtain centimetric accuracy from the developer so as to enable end-users to reap the benefits of more applications that leverage centimetric accuracy. Our results show that when coupled with inexpensive hardware, OpenPosLib enables users to get centimetric precision on a budget.Lionel MetongnonSebastien StrebelleFabien DucheneAxel LegayRamin SadreIEEEarticleSatellite navigation systemsglobal positioning systemposition measurementElectrical engineering. Electronics. Nuclear engineeringTK1-9971ENIEEE Access, Vol 9, Pp 151507-151517 (2021) |
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Satellite navigation systems global positioning system position measurement Electrical engineering. Electronics. Nuclear engineering TK1-9971 |
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Satellite navigation systems global positioning system position measurement Electrical engineering. Electronics. Nuclear engineering TK1-9971 Lionel Metongnon Sebastien Strebelle Fabien Duchene Axel Legay Ramin Sadre OpenPosLib: A Library to Achieve Centimetric Geo-Spatial Positioning on a Budget |
description |
Positioning systems can be found everywhere, from the navigation system of a car to the smart watch that tracks the running performances of its wearer. With the generalization of positioning systems, new use cases have begun to emerge that require or could benefit from increased accuracy. While the technology has been detailed in the literature for several years, the deployment of positioning techniques at the centimeter level has proved challenging. In this paper we propose OpenPosLib, an open source library that aims to fill the gap between all the components needed to achieve a centimetric accuracy and the user-facing application. Our objective is to remove most of the complexity needed to obtain centimetric accuracy from the developer so as to enable end-users to reap the benefits of more applications that leverage centimetric accuracy. Our results show that when coupled with inexpensive hardware, OpenPosLib enables users to get centimetric precision on a budget. |
format |
article |
author |
Lionel Metongnon Sebastien Strebelle Fabien Duchene Axel Legay Ramin Sadre |
author_facet |
Lionel Metongnon Sebastien Strebelle Fabien Duchene Axel Legay Ramin Sadre |
author_sort |
Lionel Metongnon |
title |
OpenPosLib: A Library to Achieve Centimetric Geo-Spatial Positioning on a Budget |
title_short |
OpenPosLib: A Library to Achieve Centimetric Geo-Spatial Positioning on a Budget |
title_full |
OpenPosLib: A Library to Achieve Centimetric Geo-Spatial Positioning on a Budget |
title_fullStr |
OpenPosLib: A Library to Achieve Centimetric Geo-Spatial Positioning on a Budget |
title_full_unstemmed |
OpenPosLib: A Library to Achieve Centimetric Geo-Spatial Positioning on a Budget |
title_sort |
openposlib: a library to achieve centimetric geo-spatial positioning on a budget |
publisher |
IEEE |
publishDate |
2021 |
url |
https://doaj.org/article/87e1f9b35400494a9f684c7e00a46274 |
work_keys_str_mv |
AT lionelmetongnon openposlibalibrarytoachievecentimetricgeospatialpositioningonabudget AT sebastienstrebelle openposlibalibrarytoachievecentimetricgeospatialpositioningonabudget AT fabienduchene openposlibalibrarytoachievecentimetricgeospatialpositioningonabudget AT axellegay openposlibalibrarytoachievecentimetricgeospatialpositioningonabudget AT raminsadre openposlibalibrarytoachievecentimetricgeospatialpositioningonabudget |
_version_ |
1718426060591202304 |