The Inertial Attitude Augmentation for Ambiguity Resolution in SF/SE-GNSS Attitude Determination

The Inertial Attitude Augmentation for Ambiguity Resolution in SF/SE-GNSS Attitude Determination

The Unaided Single Frequency/Single Epoch Global Navigation Satellite System (SF/SE GNSS) model is the most challenging scenario for ambiguity resolution in the GNSS attitude determination application. To improve the performance of SF/SE-GNSS ambiguity resolution without excessive cost, the Micro-El...

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Main Authors: Jiancheng Zhu, Xiaoping Hu, Jingyu Zhang, Tao Li, Jinling Wang, Meiping Wu
Format: Article
Language:English
Published: MDPI AG 2014-06-01
Series:Sensors
Subjects:
GNSS attitude determination
SF/SE-GNSS compass
inertial attitude augmentation
IDBV
MEMS-IMU
ADOP
integer aperture estimation
Online Access:http://www.mdpi.com/1424-8220/14/7/11395
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spelling doaj-d390456b7bb347a7acfa33eb0b7616d52020-11-24T21:53:39ZengMDPI AGSensors1424-82202014-06-01147113951141510.3390/s140711395s140711395The Inertial Attitude Augmentation for Ambiguity Resolution in SF/SE-GNSS Attitude DeterminationJiancheng Zhu0Xiaoping Hu1Jingyu Zhang2Tao Li3Jinling Wang4Meiping Wu5Department of Automatic Control, College of Mechatronics and Automation, National University of Defense Technology, Deya Street 109, Changsha 410073, Hunan, ChinaDepartment of Automatic Control, College of Mechatronics and Automation, National University of Defense Technology, Deya Street 109, Changsha 410073, Hunan, ChinaDepartment of Automatic Control, College of Mechatronics and Automation, National University of Defense Technology, Deya Street 109, Changsha 410073, Hunan, ChinaDepartment of Automatic Control, College of Mechatronics and Automation, National University of Defense Technology, Deya Street 109, Changsha 410073, Hunan, ChinaSchool of Civil and Environmental Engineering, University of New South Wales, Sydney, NSW 2052, AustraliaDepartment of Automatic Control, College of Mechatronics and Automation, National University of Defense Technology, Deya Street 109, Changsha 410073, Hunan, ChinaThe Unaided Single Frequency/Single Epoch Global Navigation Satellite System (SF/SE GNSS) model is the most challenging scenario for ambiguity resolution in the GNSS attitude determination application. To improve the performance of SF/SE-GNSS ambiguity resolution without excessive cost, the Micro-Electro-Mechanical System Inertial Measurement Unit (MEMS-IMU) is a proper choice for the auxiliary sensor that carries out the inertial attitude augmentation. Firstly, based on the SF/SE-GNSS compass model, the Inertial Derived Baseline Vector (IDBV) is defined to connect the MEMS-IMU attitude measurement with the SF/SE-GNSS ambiguity search space, and the mechanism of inertial attitude augmentation is revealed from the perspective of geometry. Then, through the quantitative description of model strength by Ambiguity Dilution of Precision (ADOP), two ADOPs are specified for the unaided SF/SE-GNSS compass model and its inertial attitude augmentation counterparts, respectively, and a sufficient condition is proposed for augmenting the SF/SE-GNSS model strength with inertial attitude measurement. Finally, in the framework of an integer aperture estimator with fixed failure rate, the performance of SF/SE-GNSS ambiguity resolution with inertial attitude augmentation is analyzed when the model strength is varying from strong to weak. The simulation results show that, in the SF/SE-GNSS attitude determination application, MEMS-IMU can satisfy the requirements of ambiguity resolution with inertial attitude augmentation.http://www.mdpi.com/1424-8220/14/7/11395GNSS attitude determinationSF/SE-GNSS compassinertial attitude augmentationIDBVMEMS-IMUADOPinteger aperture estimation
collection DOAJ
language English
format Article
sources DOAJ
author Jiancheng Zhu
Xiaoping Hu
Jingyu Zhang
Tao Li
Jinling Wang
Meiping Wu
spellingShingle Jiancheng Zhu
Xiaoping Hu
Jingyu Zhang
Tao Li
Jinling Wang
Meiping Wu
The Inertial Attitude Augmentation for Ambiguity Resolution in SF/SE-GNSS Attitude Determination
Sensors
GNSS attitude determination
SF/SE-GNSS compass
inertial attitude augmentation
IDBV
MEMS-IMU
ADOP
integer aperture estimation
author_facet Jiancheng Zhu
Xiaoping Hu
Jingyu Zhang
Tao Li
Jinling Wang
Meiping Wu
author_sort Jiancheng Zhu
title The Inertial Attitude Augmentation for Ambiguity Resolution in SF/SE-GNSS Attitude Determination
title_short The Inertial Attitude Augmentation for Ambiguity Resolution in SF/SE-GNSS Attitude Determination
title_full The Inertial Attitude Augmentation for Ambiguity Resolution in SF/SE-GNSS Attitude Determination
title_fullStr The Inertial Attitude Augmentation for Ambiguity Resolution in SF/SE-GNSS Attitude Determination
title_full_unstemmed The Inertial Attitude Augmentation for Ambiguity Resolution in SF/SE-GNSS Attitude Determination
title_sort inertial attitude augmentation for ambiguity resolution in sf/se-gnss attitude determination
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2014-06-01
description The Unaided Single Frequency/Single Epoch Global Navigation Satellite System (SF/SE GNSS) model is the most challenging scenario for ambiguity resolution in the GNSS attitude determination application. To improve the performance of SF/SE-GNSS ambiguity resolution without excessive cost, the Micro-Electro-Mechanical System Inertial Measurement Unit (MEMS-IMU) is a proper choice for the auxiliary sensor that carries out the inertial attitude augmentation. Firstly, based on the SF/SE-GNSS compass model, the Inertial Derived Baseline Vector (IDBV) is defined to connect the MEMS-IMU attitude measurement with the SF/SE-GNSS ambiguity search space, and the mechanism of inertial attitude augmentation is revealed from the perspective of geometry. Then, through the quantitative description of model strength by Ambiguity Dilution of Precision (ADOP), two ADOPs are specified for the unaided SF/SE-GNSS compass model and its inertial attitude augmentation counterparts, respectively, and a sufficient condition is proposed for augmenting the SF/SE-GNSS model strength with inertial attitude measurement. Finally, in the framework of an integer aperture estimator with fixed failure rate, the performance of SF/SE-GNSS ambiguity resolution with inertial attitude augmentation is analyzed when the model strength is varying from strong to weak. The simulation results show that, in the SF/SE-GNSS attitude determination application, MEMS-IMU can satisfy the requirements of ambiguity resolution with inertial attitude augmentation.
topic GNSS attitude determination
SF/SE-GNSS compass
inertial attitude augmentation
IDBV
MEMS-IMU
ADOP
integer aperture estimation
url http://www.mdpi.com/1424-8220/14/7/11395
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