Astronomy:Geodetic astronomy

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Short description: Using stars to measure Earth

Geodetic astronomy or astronomical geodesy (astro-geodesy) is the application of astronomical methods into geodetic networks and other technical projects of geodesy.

Applications

The most important applications are:

  • Establishment of geodetic datum systems (e.g. ED50) or at expeditions
  • apparent places of stars, and their proper motions
  • precise astronomical navigation
  • astro-geodetic geoid determination
  • modelling the rock densities of the topography and of geological layers in the subsurface
  • Monitoring of the Earth rotation and polar wandering
  • Contribution to the time system of physics and geosciences

Measuring techniques

Important measuring techniques are:

The accuracy of these methods depends on the instrument and its spectral wavelength, the measuring or scanning method, the time amount (versus economy), the atmospheric situation, the stability of the surface resp. the satellite, on mechanical and temperature effects to the instrument, on the experience and skill of the observer, and on the accuracy of the physical-mathematical models.

Therefore, the accuracy reaches from 60" (navigation, ~1 mile) to 0,001" and better (a few cm; satellites, VLBI), e.g.:

  • angles (vertical deflections and azimuths) ±1" up to 0,1"
  • geoid determination & height systems ca. 5 cm up to 0,2 cm
  • astronomical lat/long and star positions ±1" up to 0,01"
  • HIPPARCOS star positions ±0,001"
  • VLBI quasar positions and Earth's rotation poles 0,001 to 0,0001" (cm...mm)

Astrogeodetic leveling is a local geoid determination method based on vertical deflection measurements. Given a starting value at one point, determining the geoid undulations for an area becomes a matter for simple integration of vertical deflection, as it represents the horizontal spatial gradient of the geoid undulation.

See also

References

External links