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Preliminary study of the re-radiation effect of Loran signal to improve the positioning accuracy

Authors
Son, P.-W.Park, S.G.Seo, K.Park, S.Fang, T.H.
Issue Date
2019
Publisher
Institute of Electrical and Electronics Engineers Inc.
Keywords
directional ASF; maritime; multichain-based Loran; PNT system; re-radiation
Citation
European Navigation Conference, ENC 2019
Journal Title
European Navigation Conference, ENC 2019
URI
https://www.kriso.re.kr/sciwatch/handle/2021.sw.kriso/8355
DOI
10.1109/EURONAV.2019.8714156
ISSN
0000-0000
Abstract
South Korea plans to implement the test bed of the eLoran system in the West Sea and it aims to provide approximately 20 m of positioning accuracy in this area. In order to achieve the desired positioning performance, the Additional Secondary Factor (ASF), which is the major error of the Loran system, needs to be precisely corrected. However, when a service provider surveys spatial ASF to produce an ASF map, calculated spatial ASF value varies depending on the direction of the vehicle equipped with Loran antenna. In this paper, we modeled and removed the re-radiation effect caused by the surrounding structures and verified its performance. Using the GPS / eLoran integrated navigation system developed by KRISO, we verify the performance of proposed algorithm in the West Sea of South Korea. Because we don't have any eLoran transmitter in Northeast Asia not yet, we used multichain-based Loran positioning algorithm and TDOA-based ASF correction method. ? 2019 IEEE.
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