Research

Atmosphere & Environment Sciences

Title :

Improvement of geoid model derived from EGM at regional scale by advanced gravimetric geoid modelling, a case study in Kanpur and Unnao district of UP

Area of research :

Atmosphere & Environment Sciences, Earth

Focus area :

Gravimetric Geoid Modelling

Principal Investigator :

Dr. Avadh Bihari Narayan, Indian Institute of Technology (IIT) Tirupati, Andhra Pradesh (517506)

Timeline Start Year :

2024

Timeline End Year :

2026

Contact info :

Details

Executive Summary :

The height of a point on Earth's surface can be defined as ellipsoidal or orthometric height. The geoid is an equipotential surface of Earth's gravity field, while the ellipsoid is a mathematical surface best fitting the geoid. GNSS observation provides ellipsoidal height, but it is purely geometrical and may not account for water flow. Orthometric heights are used in engineering, especially hydrology projects. Two widely used approaches are leveling and undulation. Gravimetric geoid modeling is used to estimate geoid undulations using Earth Gravitational Models (EGM). This project aims to develop a hybrid routine combining spatial and spectral techniques for faster computation time and accurate processing. The algorithm will use three data sources: EGM2008 gravity anomaly and geoid undulation, NOAA GRAV-D project airborne gravity data, and National Centre for Geodesy terrestrial gravity data.

Total Budget (INR):

15,58,353

Organizations involved