Determining the new height of Mount Qomolangma based on the International Height Reference System

To achieve the goal that China and Nepal jointly announce the new height of Mount Qomolangma (MQ), the campaign of Qomolangma Height Survey (QHS) was carried out from 2019 to 2020. A high precision geoid model realizing the common height datum for both sides is necessary for determining the unique h...

Full description

Saved in:
Bibliographic Details
Published inGeo-spatial information science Vol. ahead-of-print; no. ahead-of-print; pp. 1 - 10
Main Authors Dang, Yamin, Jiang, Tao, Guo, Chunxi, Chen, Bin, Zhang, Chuanyin, Yang, Qiang, Wang, Zhengtao
Format Journal Article
LanguageEnglish
Published Wuhan Taylor & Francis 03.07.2024
Taylor & Francis Ltd
Taylor & Francis Group
Subjects
2020 Qomolangma Height Survey
Accuracy
Airborne gravity
BeiDou Navigation Satellite System
Benchmarks
geoid
Geoids
High altitude
International Height Reference System
Mount Qomolangma
Navigation satellites
Reference systems
Satellite navigation systems
Satellite observation
Terrestrial environments
Online AccessGet full text

Cover

More Information
Summary:To achieve the goal that China and Nepal jointly announce the new height of Mount Qomolangma (MQ), the campaign of Qomolangma Height Survey (QHS) was carried out from 2019 to 2020. A high precision geoid model realizing the common height datum for both sides is necessary for determining the unique height of MQ. However, high altitude and rugged topography make it extremely difficult to conduct terrestrial gravity measurements in this region, the accuracy of geoid model is restricted by terrestrial gravity data gaps. In the campaign of 2020 QHS, the airborne gravity survey was carried out over MQ and its surrounding areas, the airborne gravity data covering an area of 12,700 km 2 were successfully collected. For the first time, the high precision observations of terrestrial gravity and BeiDou Navigation Satellite System (BDS) at the peak of MQ were collected. These datasets pave the way for the precise determination of the orthometric height of MQ. According to the definition of the International Height Reference System (IHRS), we developed the IHRS-based gravimetric quasigeoid model by combining the airborne and terrestrial gravity data. Validations against highly accurate GNSS leveling data at 61 benchmarks demonstrate that the accuracy of the quasigeoid model is 3.8 cm, and the addition of airborne gravity data improves the accuracy by 51.3%. Based on the IHRS, the final orthometric height of the snow surface of the peak of MQ is determined to be 8848.86 m.
ISSN:1009-5020
1993-5153
DOI:10.1080/10095020.2022.2128901