A new approach to single-epoch attitude determination for single-frequency low-cost GNSS receivers

doi:10.13474/j.cnki.11-2246.2024.0513

Abstract

Abstract: GNSS attitude determination is increasingly applied in various navigation and positioning fields due to its cost-effectiveness. Navigation and positioning modules in the consumer market often employ low-cost receivers, which face challenges such as significant multipath effects, frequent cycle slips and integer ambiguities, among others. In complex urban environments, ambiguity fixing, a crucial component of GNSS attitude determination, encounters even more challenges. In this paper, based on the C-Lambda algorithm, we propose the C-Lambda-Search and C-Lambda-A Search methods. These methods involve a search for the degrees of freedom of another attitude angle when fixing ambiguities with a single baseline. They are employed to perform global minimization of the ambiguity function in both the attitude and ambiguity domains, aiming to calculate baseline vectors. We conduct static and dynamic vehicle experiments with three low-cost receivers (ublox-M8T) and patch antennas in different environments with varying baseline lengths.Both experiments demonstrate that the methods proposed in this paper significantly improve ambiguity fixing performance and Euler angle calculation accuracy. Furthermore, the computational burden remains within an acceptable range. These methods prove to be practical and effective for vehicle attitude determination.

Key words: GNSS, inexpensive, attitude resolution, single epoch single item, ambiguity fixed

CLC Number:

P228

TAO Shiliang, WANG Chenzhe, WU Wentan, CHEN Yongli. A new approach to single-epoch attitude determination for single-frequency low-cost GNSS receivers[J]. Bulletin of Surveying and Mapping, 2024, 0(5): 71-76,126.

References

[1] EL-SHEIMY N,YOUSSEF A.Inertial sensors technologies for navigation applications: state of the art and future trends[J].Satellite Navigation,2020,1(1): 2.
[2] ZHANG Peng,ZHAO Yinzhi,LIN Huan,et al.A novel GNSS attitude determination method based on primary baseline switching for A multi-antenna platform[J].Remote Sensing,2020,12(5): 747.
[3] TEUNISSEN P J G.Integer least-squares theory for the GNSS compass[J].Journal of Geodesy,2010,84(7): 433-447.
[4] TEUNISSEN P J G.A general multivariate formulation of the multi-antenna GNSS attitude determination problem[J].Artificial Satellites: A Journal of Planetary Geodesy,2007(2):42.
[5] ROTH J,KASCHWICH C.Improving GNSS attitude determination using inertial and magnetic field sensors[EB/OL].(2012-09-03)[2023-10-11].https://insidegnss.com/improving-gnss-attitude-determination/.
[6] 宋晓迪,王磊,林高宇,等.GNSS RTK实时自适应换站方法[J].测绘通报,2022(11): 44-48.
[7] 王国权,鲍艳.基于区域参考框架的GNSS滑坡监测[J].测绘学报,2022,51(10): 2107-2116.
[8] CHEN Wantong,QIN Honglei.New method for single epoch,single frequency land vehicle attitude determination using low-end GPS receiver[J].GPS Solutions,2012,16(3): 329-338.
[9] 代桃高,丁宇凯,王子龙,等.一种GNSS动态检定方法及设计实现[J].测绘科学,2022,47(12): 66-73.
[10] CHEN Wantong,HU Kunfan,LI Ercui.Low-cost land vehicle attitude determination using single-epoch GPS data,MEMS-based inclinometer measurements[J].Acta Geodaetica et Geophysica,2017,52(1): 111-129.
[11] CONG Li,LI Ercui,QIN Honglei,et al.A performance improvement method for low-cost land vehicle GPS/MEMS-INS attitude determination[J].Sensors,2015,15(3): 5722-5746.
[12] GUO Jianfeng.Quality assessment of the affine-constrained GNSS attitude model[J].GPS Solutions,2019,23(1): 24.
[13] MARKLEY F L.Attitude error representations for Kalman filtering[J].Journal of Guidance,Control,and Dynamics,2003,26(2): 311-317.
[14] MARKLEY F L.Attitude determination using vector observations and the singular value decomposition[J].Journal of the Astronautical Sciences,36(3):245-258.

[1]	JIAN Linghuo, WANG Xinpeng, TAO Tingye. GNSS-MR tidal level inversion based on VMD [J]. Bulletin of Surveying and Mapping, 2024, 0(4): 18-22,34.
[2]	TANG Weiming, QI Kepei, DENG Chenlong, ZOU Xuan, LI Yangyang, HU Zeqi. An odometer-aided GNSS/INS integrated navigation algorithm under the framework of FGO [J]. Bulletin of Surveying and Mapping, 2024, 0(3): 63-68.
[3]	WANG Shitai, YANG Kexin, YIN Min, MA Yue, JIANG Wei, LIU Xu, WEI Jialin. Robust regression soil moisture retrieval method for GNSS-IR multi-star fusion [J]. Bulletin of Surveying and Mapping, 2024, 0(3): 69-74.
[4]	ZHONG Changhai, LIN Zile, HUANG Xin, KONG Jian. Long-distance cross-sea height datum transfer method and verification in the Beibu Gulf engineering in Northern Guangxi [J]. Bulletin of Surveying and Mapping, 2024, 0(2): 161-164,182.
[5]	WEI Dehong, XUAN Jianhao, YANG Jiawei, ZHANG Xingfu, YU Xu. Accurcy analysis of GNSS height transformation based on deep BP/ELMAN neural network in the mountains [J]. Bulletin of Surveying and Mapping, 2023, 0(9): 113-116,143.
[6]	LI Ang, ZHONG Ruofei, LIU Zhengjun, XIE Donghai, WU Wei, ZHANG Yan. Research on LiDAR Positioning method of fusion descriptor and particle filter when GNSS loss of lock [J]. Bulletin of Surveying and Mapping, 2023, 0(8): 84-90.
[7]	JIN Xinyang, WANG Bin, LIU Xiaoyun, GUO Xinwei, TIAN Jie. Analysis of feasibility on re-refinement of provincial quasi-geoid [J]. Bulletin of Surveying and Mapping, 2023, 0(8): 151-154.
[8]	TAN Mingming, FAN Yaling, Lü Kexin, HAO Shang, XU Tao, CAI Guotian, ZHANG Jie, LI Zhicai. Co-seismic deformation extraction and accuracy analysis of the Maduo Earthquake based on the combined of different global navigation satellite systems [J]. Bulletin of Surveying and Mapping, 2023, 0(7): 80-84.
[9]	LI Xiaotong, LI Wei, XIE Xukang, HUANG Yutong. Improved stacking filtering method considering multiple weighting factors [J]. Bulletin of Surveying and Mapping, 2023, 0(7): 91-96.
[10]	HUANG Ning, FU Shiyang, ZHANG Lulu, XIONG Ling, HUANG Liangke, LIU Lilong. A regional tropospheric zenith wet delay model considering piece wise representation for China region [J]. Bulletin of Surveying and Mapping, 2023, 0(5): 96-100.
[11]	XIONG Chunbao, ZHANG Zijian, CHEN Wen, YU Lina. CVCEEMDAN-WT-SSA algorithm of denoising the data from monitoring offshore platform by GNSS RTK [J]. Bulletin of Surveying and Mapping, 2023, 0(4): 163-166,171.
[12]	GAO Ying, XU Siyi, LI Li, LU Houxian, HE Qimin, WANG Xiaoming. GNSS-PWV calculation method based on the GPT-3 model [J]. Bulletin of Surveying and Mapping, 2023, 0(3): 44-48,103.
[13]	NIE Shihai, WANG Long, WANG Mengke, LI Peng, LIANG Lei, HUANG Danni, LIU Bin. GNSS-IR multi-satellite dual-frequency combination soil moisture inversion combined with machine learning [J]. Bulletin of Surveying and Mapping, 2023, 0(10): 98-104.
[14]	GAO Jiandong, WANG Yong, AN Jianglei, JIANG Jundi. A multi-source land subsidence monitoring data fusion method and its application [J]. Bulletin of Surveying and Mapping, 2023, 0(10): 158-162,172.
[15]	ZHU Xiaowu, DUAN Hongshan, CHEN Guoheng, LIU Lei. Retrieval analysis of atmospheric precipitable water vapor from multi-system GNSS in the Guangdong-Hong Kong-Macao Greater Bay Area [J]. Bulletin of Surveying and Mapping, 2023, 0(10): 163-167.