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On Solving the Multi-Constellation Pseudorange Equations
Navigation, 2010Future Global Navigation Satellite System (GNSS) receivers may employ a combination of different navigation satellite constellations to provide positioning, navigation, and timing information. As different constellations may not be time-synchronized, the multi-constellation navigation problem involves the determination of position of the receiver and ...
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Satellite selection methods for multi-constellation advanced RAIM
Advances in Space Research, 2020Abstract The increased number of potential threat modes under multi-constellation advanced receiver autonomy integrity monitoring (ARAIM) requires an increase in the number of subsets and a correspondingly high computational load. A new satellite selection method based on integrity support message (ISM) parameters is proposed and compared with GDOP ...
Silong Luo +5 more
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Multi-layered Multi-constellation GNSS Interference Mitigation
ION GNSS+, The International Technical Meeting of the Satellite Division of The Institute of Navigation, 2021Several layers of defense can be implemented in a Global Navigation Satellite System (GNSS) receiver to improve its performance in the presence of interference. These layers include the use of pre-correlation mitigation techniques, post-correlation quality indicators to screen measurements and Fault Detection and Exclusion (FDE) at the position ...
Ciro Gioia, Daniele Borio
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On exact solutions of the multi-constellation GNSS navigation problem
GPS Solutions, 2008In Global Navigation Satellite System (GNSS) positioning, the receiver measures the pseudorange with respect to each observable navigation satellite and determines the position and clock bias. In addition to the GPS, several other navigation satellite constellations including Glonass, Galileo and Compass can/will also be used to provide positioning ...
Jyh-Ching Juang, Yung Fu Tsai
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Android Smartphones for GNSS studies in Multi-Constellation Environment
2020 National Conference on Emerging Trends on Sustainable Technology and Engineering Applications (NCETSTEA), 2020Modern smartphones are used for various purposes other than core telephony services. They are equipped with GNSS sensors and therefore are used as personal navigation devices. Presence of capable GNSS hardware enables them to be used for collection of GNSS data for geomatic application or basic GNSS research.
Debipriya Dutta +5 more
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Acquisition algorithm for GNSS multi-constellation signals
Scientia Sinica Physica, Mechanica & Astronomica, 2011Multi-constellation receivers will become popularity since the current satellite navigation systems are transforming from the solo GPS to multi GNSS constellations. The traditional fast acquisition algorithms in time domain and frequency domain for signal of special satellite system have their own shortages.
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Performance evaluation of GNSS receiver in multi-constellation system
2017 International Conference on Electrical, Computer and Communication Engineering (ECCE), 2017With the increasing demand of users' multi-constellation will be one of the best modes in future satellite navigation system. This basically provides a user the best accuracy in his position, motion and time. For given any positioning information at least four in view satellites are required.
Musharrat Shabnam +4 more
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Research of Fast Satellite Selection Algorithm for Multiāconstellation
Chinese Journal of Electronics, 2016We propose a fast satellite selection algorithm for multi-constellation, which is based on both Newton's identities for Geometric dilution of precision (GDOP) fast computation and optimal satellite geometric distribution for less cycle participation.
Fanchen Meng, Shan Wang, Bocheng Zhu
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Initial Results of a Multi-Constellation ARAIM Airborne Prototype
The International Technical Meeting of the The Institute of Navigation, 2017Advanced Receiver Autonomous Integrity Monitoring extends RAIM to multiple constellations and dual frequency, with the goal of providing worldwide coverage of vertical guidance for aircraft. Availability simulations have shown that ARAIM based on GPS L1-L5 and Galileo E1-E1a could provide global coverage of vertical guidance.
Juan Blanch +3 more
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RAIM and AUKF for GNSS Performance Enhancement in Multi-Constellation
The International Technical Meeting of the The Institute of Navigation, 2017With the extensive application and popularization of GPS/BDS/Galileo/GLONASS, about 40 satellites will be tracked at the positioning epoch for GNSS receivers. Thus, satellite selection plays a crucial role in decreasing pressure for receivers with limited data processing capability and enhancing positioning performance by optimal satellite geometric ...
F. C. Meng +5 more
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