An Improved Single-Epoch Attitude Determination Method for Low-Cost Single-Frequency GNSS Receivers

An Improved Single-Epoch Attitude Determination Method for Low-Cost Single-Frequency GNSS Receivers

GNSS attitude determination has been widely used in various navigation and positioning applications, due to its advantages of low cost and high efficiency. The navigation positioning and attitude determination modules in the consumer market mostly use low-cost receivers and face many problems such a...

Full description

Bibliographic Details
Main Authors: Xinzhe Wang, Yinbin Yao, Chaoqian Xu, Yinzhi Zhao, Huan Zhang
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Remote Sensing
Subjects:
GNSS
low-cost
attitude determination
single-frequency single-epoch
Online Access:https://www.mdpi.com/2072-4292/13/14/2746
id doaj-49aa9b08fe9e432db4319ed278d5889c
record_format Article
spelling doaj-49aa9b08fe9e432db4319ed278d5889c2021-07-23T14:04:26ZengMDPI AGRemote Sensing2072-42922021-07-01132746274610.3390/rs13142746An Improved Single-Epoch Attitude Determination Method for Low-Cost Single-Frequency GNSS ReceiversXinzhe Wang0Yinbin Yao1Chaoqian Xu2Yinzhi Zhao3Huan Zhang4School of Geodesy and Geomatics, Wuhan University, Wuhan 430079, ChinaSchool of Geodesy and Geomatics, Wuhan University, Wuhan 430079, ChinaSchool of Geodesy and Geomatics, Wuhan University, Wuhan 430079, ChinaSchool of Geodesy and Geomatics, Wuhan University, Wuhan 430079, ChinaSchool of Geodesy and Geomatics, Wuhan University, Wuhan 430079, ChinaGNSS attitude determination has been widely used in various navigation and positioning applications, due to its advantages of low cost and high efficiency. The navigation positioning and attitude determination modules in the consumer market mostly use low-cost receivers and face many problems such as large multipath effects, frequent cycle slips and even loss of locks. Ambiguity fixing is the key to GNSS attitude determination and will face more challenges in the complex urban environment. Based on the CLAMBDA algorithm, this paper proposes a CLAMBDA-search algorithm based on the multi-baseline GNSS model. This algorithm improves the existing CLAMBDA method through a fixed geometry constraint among baselines in the vehicle coordinate system. A fixed single-baseline solution reduces two degrees of freedom of vehicle rigid body, and a global minimization search for the ambiguity objective function in the other degree of freedom is conducted to calculate the baseline vector and its Euler angles. In addition, in order to make up for the shortcomings of short baseline ambiguity in complex environments, this paper proposes different validation strategies. Using three low-cost receivers (ublox M8T) and patch antennas, static and dynamic on-board experiments with different baseline length set-ups were carried out in different environments. Both the experiments prove that the method proposed in this paper has greatly improved the ambiguity fixing performance and also the Euler angle calculation accuracy, with an acceptable calculation burden. It is a practical vehicle-mounted attitude determination algorithm.https://www.mdpi.com/2072-4292/13/14/2746GNSSlow-costattitude determinationsingle-frequency single-epoch
collection DOAJ
language English
format Article
sources DOAJ
author Xinzhe Wang
Yinbin Yao
Chaoqian Xu
Yinzhi Zhao
Huan Zhang
spellingShingle Xinzhe Wang
Yinbin Yao
Chaoqian Xu
Yinzhi Zhao
Huan Zhang
An Improved Single-Epoch Attitude Determination Method for Low-Cost Single-Frequency GNSS Receivers
Remote Sensing
GNSS
low-cost
attitude determination
single-frequency single-epoch
author_facet Xinzhe Wang
Yinbin Yao
Chaoqian Xu
Yinzhi Zhao
Huan Zhang
author_sort Xinzhe Wang
title An Improved Single-Epoch Attitude Determination Method for Low-Cost Single-Frequency GNSS Receivers
title_short An Improved Single-Epoch Attitude Determination Method for Low-Cost Single-Frequency GNSS Receivers
title_full An Improved Single-Epoch Attitude Determination Method for Low-Cost Single-Frequency GNSS Receivers
title_fullStr An Improved Single-Epoch Attitude Determination Method for Low-Cost Single-Frequency GNSS Receivers
title_full_unstemmed An Improved Single-Epoch Attitude Determination Method for Low-Cost Single-Frequency GNSS Receivers
title_sort improved single-epoch attitude determination method for low-cost single-frequency gnss receivers
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2021-07-01
description GNSS attitude determination has been widely used in various navigation and positioning applications, due to its advantages of low cost and high efficiency. The navigation positioning and attitude determination modules in the consumer market mostly use low-cost receivers and face many problems such as large multipath effects, frequent cycle slips and even loss of locks. Ambiguity fixing is the key to GNSS attitude determination and will face more challenges in the complex urban environment. Based on the CLAMBDA algorithm, this paper proposes a CLAMBDA-search algorithm based on the multi-baseline GNSS model. This algorithm improves the existing CLAMBDA method through a fixed geometry constraint among baselines in the vehicle coordinate system. A fixed single-baseline solution reduces two degrees of freedom of vehicle rigid body, and a global minimization search for the ambiguity objective function in the other degree of freedom is conducted to calculate the baseline vector and its Euler angles. In addition, in order to make up for the shortcomings of short baseline ambiguity in complex environments, this paper proposes different validation strategies. Using three low-cost receivers (ublox M8T) and patch antennas, static and dynamic on-board experiments with different baseline length set-ups were carried out in different environments. Both the experiments prove that the method proposed in this paper has greatly improved the ambiguity fixing performance and also the Euler angle calculation accuracy, with an acceptable calculation burden. It is a practical vehicle-mounted attitude determination algorithm.
topic GNSS
low-cost
attitude determination
single-frequency single-epoch
url https://www.mdpi.com/2072-4292/13/14/2746
work_keys_str_mv AT xinzhewang animprovedsingleepochattitudedeterminationmethodforlowcostsinglefrequencygnssreceivers
AT yinbinyao animprovedsingleepochattitudedeterminationmethodforlowcostsinglefrequencygnssreceivers
AT chaoqianxu animprovedsingleepochattitudedeterminationmethodforlowcostsinglefrequencygnssreceivers
AT yinzhizhao animprovedsingleepochattitudedeterminationmethodforlowcostsinglefrequencygnssreceivers
AT huanzhang animprovedsingleepochattitudedeterminationmethodforlowcostsinglefrequencygnssreceivers
AT xinzhewang improvedsingleepochattitudedeterminationmethodforlowcostsinglefrequencygnssreceivers
AT yinbinyao improvedsingleepochattitudedeterminationmethodforlowcostsinglefrequencygnssreceivers
AT chaoqianxu improvedsingleepochattitudedeterminationmethodforlowcostsinglefrequencygnssreceivers
AT yinzhizhao improvedsingleepochattitudedeterminationmethodforlowcostsinglefrequencygnssreceivers
AT huanzhang improvedsingleepochattitudedeterminationmethodforlowcostsinglefrequencygnssreceivers
_version_ 1721286084143349760

Similar Items