Location corrections through differential networks (LOCD-IN)

Many modern personal devices (cell phones, tablet computer, smart watches, etc.) contain embedded GNSS receivers capable of determining their position with a typical error of around 8-20 meters. Recent improvements to the software and hardware of these devices have given access to the raw GNSS data...

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Main Authors: Gilabert, Russell, Dill, Evan, de Haag, Maarten Uijt
Format: Conference Proceeding
Language:English
Subjects:
Base stations
Buildings
differential GPS
Global navigation satellite system
Global Positioning System
GNSS augmentation
Mobile handsets
Phase measurement
positioning enhancement
Receivers
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Dill, Evan
de Haag, Maarten Uijt
description Many modern personal devices (cell phones, tablet computer, smart watches, etc.) contain embedded GNSS receivers capable of determining their position with a typical error of around 8-20 meters. Recent improvements to the software and hardware of these devices have given access to the raw GNSS data allowing developers the ability to manipulate and refine the computation of the position solution produced by the embedded GNSS receiver. This paper discusses the implementation of networked differential ground stations in an effort to reduce the error of a GNSS receiver on a mobile device and describe the improvement obtained.
doi_str_mv 10.1109/PLANS.2018.8373404
format conference_proceeding
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source IEEE Xplore All Conference Series
subjects Base stations
Buildings
differential GPS
Global navigation satellite system
Global Positioning System
GNSS augmentation
Mobile handsets
Phase measurement
positioning enhancement
Receivers
title Location corrections through differential networks (LOCD-IN)
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