环境大地测量学

瓦格纳

目录

  • 1 Week - 01
    • 1.1 01 - Introduction
    • 1.2 02 - Earth’s gravity field
    • 1.3 03 - Earth's shape
    • 1.4 04 - Earth's rotation
  • 2 Week - 02
    • 2.1 05 - ICRF
    • 2.2 06 - ITRF
    • 2.3 07 - Coordinate Systems in Geodesy
    • 2.4 08 - Spherical harmonic functions
  • 3 Week - 03
    • 3.1 09 - Atmospheric refraction
    • 3.2 10 - Earth tides
    • 3.3 11 - Structure and dynamics of the Earth
    • 3.4 12 - The Earth system
  • 4 Week - 04
    • 4.1 13 - Satellite gravimetry
    • 4.2 14 - Satellite altimetry
    • 4.3 15 - GNSS
    • 4.4 16 - InSAR
  • 5 Week - 05
    • 5.1 17 - Hydrology with satellite gravimetryy
    • 5.2 18 - Hydrology with satellite altimetry
    • 5.3 19 - Hydrology with GNSS
    • 5.4 20 - Hydrology with InSAR
  • 6 Week - 06
    • 6.1 21 - Gravity and hydrology
    • 6.2 22 - Processing satellite gravimetry data (Part I)
    • 6.3 23  - Processing satellite gravimetry data (Part II)
  • 7 Week - 07
    • 7.1 Spherical Harmonics Synthesis and its Use in Solid Earth
    • 7.2 Spherical Harmonics Synthesis and its Use in Hydrology
  • 8 Week - 08
    • 8.1 Finals
    • 8.2 Seminar
Spherical Harmonics Synthesis and its Use in Hydrology

Practical – 02: Spherical Harmonics Synthesis and its Use in Hydrology

In this practical, the gridded and averaged terrestrial water storage should be computed as the content presented in Week 05. The GRACE Level-2 products are generally given as monthly time series of potential coefficients and will be inverted to estimate the water storage changes as gridded values and averaged values over a particular region/basin.