TY - GEN
T1 - Evaluation of Code-Carrier Divergence Threat for DFMC GBAS in Urban Area
AU - Huang, Xuedong
AU - Fang, Kun
AU - Wang, Zhipeng
AU - Sun, Rui
AU - Zhu, Yanbo
N1 - Publisher Copyright:
© 2025 IEEE.
PY - 2025
Y1 - 2025
N2 - The Dual-Frequency Multi-Constellation Ground Based Augmentation System (DFMC GBAS) holds significant potential for enabling safe and precise urban air mobility (UAM) operations, such as electric vertical takeoff and landing (eVTOL). A new DFMC GBAS architecture, known as GBAS Approach Service Type (GAST) E, has been proposed by International Civil Aviation Organization (ICAO) Navigation System Panel (NSP) GBAS Working Group (GWG). However, urban environments introduce severe code-carrier divergence (CCD) threats due to significant multipath effect including non-line-of-sight (NLOS) signals and dynamic multipath interference (MI). This challenges the integrity of traditional 30s filtering GAST-D-like CCD monitors. This paper evaluates multipath-induced CCD threats in DFMC GBAS under real-world urban conditions through real field tests. Two strategy of DF CCD test metric using L1/B1C and L5/B2a signals, raw CCD test metrics and 30 seconds filtered GAST-D like test metrics, are used to quantify the CCD threats induced by MI and NLOS. In the real field test, pseudorange multipath errors in urban canyons exceed 100 meters, dominating CCD anomalies. Experimental results reveal that raw CCD DF1 and DF5 test metrics can detect rapid MI-induced pseudorange variations, however, they fail to identify constant NLOS biases, leading to delayed or false alerts. Meanwhile, the proposed GAST-D MOPS defined threshold for CCD monitor cannot satisfy the requirement of multipath-induced CCD identification. The threshold should be change for real operation of DFMC GBAS in urban area.
AB - The Dual-Frequency Multi-Constellation Ground Based Augmentation System (DFMC GBAS) holds significant potential for enabling safe and precise urban air mobility (UAM) operations, such as electric vertical takeoff and landing (eVTOL). A new DFMC GBAS architecture, known as GBAS Approach Service Type (GAST) E, has been proposed by International Civil Aviation Organization (ICAO) Navigation System Panel (NSP) GBAS Working Group (GWG). However, urban environments introduce severe code-carrier divergence (CCD) threats due to significant multipath effect including non-line-of-sight (NLOS) signals and dynamic multipath interference (MI). This challenges the integrity of traditional 30s filtering GAST-D-like CCD monitors. This paper evaluates multipath-induced CCD threats in DFMC GBAS under real-world urban conditions through real field tests. Two strategy of DF CCD test metric using L1/B1C and L5/B2a signals, raw CCD test metrics and 30 seconds filtered GAST-D like test metrics, are used to quantify the CCD threats induced by MI and NLOS. In the real field test, pseudorange multipath errors in urban canyons exceed 100 meters, dominating CCD anomalies. Experimental results reveal that raw CCD DF1 and DF5 test metrics can detect rapid MI-induced pseudorange variations, however, they fail to identify constant NLOS biases, leading to delayed or false alerts. Meanwhile, the proposed GAST-D MOPS defined threshold for CCD monitor cannot satisfy the requirement of multipath-induced CCD identification. The threshold should be change for real operation of DFMC GBAS in urban area.
KW - Code Carrier Divergence
KW - GNSS
KW - Ground Based Augmentation System
KW - Multipath Effect
KW - Urban Air Mobility
UR - https://www.scopus.com/pages/publications/105005196877
U2 - 10.1109/ICNS65417.2025.10976770
DO - 10.1109/ICNS65417.2025.10976770
M3 - 会议稿件
AN - SCOPUS:105005196877
T3 - Integrated Communications, Navigation and Surveillance Conference, ICNS
BT - ICNS 2025 - Integrated Communications, Navigation and Surveillance Conference
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2025 Integrated Communications, Navigation and Surveillance Conference, ICNS 2025
Y2 - 8 April 2025 through 10 April 2025
ER -