Facilitated interferometric reflectometry evaluation and its application in monitoring three typhoon storm surges in Hong Kong with multi-GNSS constellation

Chai，Haishan1; Chen，Kejie1,2

2024-07-01

10.1007/s10291-024-01642-6

GPS Solutions   影响因子和分区

1080-5370

1521-1886

In recent years, the potential of Global Navigation Satellite System Interferometric Reflectometry (GNSS-IR) for monitoring sea-level variations has been explored extensively. However, most studies have typically selected coastal sites with optimal GNSS-IR observation conditions, often limiting verification to one or two stations and overlooking other viable sites. This study introduces a site-evaluation strategy named facilitated interferometric reflectometry evaluation (FIRE), which utilizes two constructed indices—normalized available observation time and normalized sampling deficiency—to assess the suitability of GNSS sites for sea-level retrieval. Implemented in Hong Kong, China, the strategy was applied to all 19 sites within the local reference GNSS network. In addition to the two sites previously used, we identified five additional sites conducive to tidal GNSS-IR, demonstrating precisions between 0.07 m and 0.37 m and correlations ranging from 0.986 to 0.711. With denser GNSS-IR observations, we were able to map sea-level variations during three historic typhoon storm surges in the region more precisely: 2017 Typhoon Hato, 2018 Typhoon Mangkhut, and 2023 Typhoon Saola. Typhoon Saola presented a longer duration of six days and a slightly lower sea-level peak between 2.88 m and 3.13 m. The deployment of additional tidal GNSS-IR sites revealed variations in sea levels during typhoon storm surges, with differences influenced by coastline topography of up to 1.24 m observed during Typhoon Mangkhut. These sites offer a valuable supplement to traditional tide measurements, filling gaps in historical records. The FIRE strategy demonstrates the untapped potential of existing GNSS networks globally for sea-level monitoring and can be employed to unlock further observational opportunities.

Facilitated interferometric reflectometry evaluation GNSS-IR Typhoon in Hong Kong

SCI ; EI

英语

第一 ; 通讯

20241515854046

Floods ; Global positioning system ; Hurricanes ; Interferometry ; Reflection ; Reflectometers ; Sea level ; Topography

Precipitation:443.3 ; Oceanography, General:471.1 ; Optical Instruments:941.3 ; Optical Variables Measurements:941.4 ; Materials Science:951

GEOSCIENCES

2-s2.0-85189330191

Scopus

1.Department of Earth and Space Sciences,Southern University of Science and Technology,Shenzhen,518055,China
2.Institute of Risk Analysis,Prediction and Management (Risks-X),Academy for Advanced Interdisciplinary Studies,Southern University of Science and Technology,Shenzhen,518055,China

Chai，Haishan,Chen，Kejie. Facilitated interferometric reflectometry evaluation and its application in monitoring three typhoon storm surges in Hong Kong with multi-GNSS constellation[J]. GPS Solutions,2024,28(3).

Chai，Haishan,&Chen，Kejie.(2024).Facilitated interferometric reflectometry evaluation and its application in monitoring three typhoon storm surges in Hong Kong with multi-GNSS constellation.GPS Solutions,28(3).

Chai，Haishan,et al."Facilitated interferometric reflectometry evaluation and its application in monitoring three typhoon storm surges in Hong Kong with multi-GNSS constellation".GPS Solutions 28.3(2024).