Introduction to geodesy, its principles, tasks and applications. Measurements and methods for geodetic positioning. The gravity field and the geoid in science and engineering. Elements from potential theory, vector calculus, Gauss divergence, Green's theorems, boundary value problems. The normal field. Gravimetry. Gravity reductions, isostasy. Geoid determination, Stokes's formula, combination methods. Vertical positioning and height systems. Fundamentals of Earth's figure and gravity field estimation using perturbations of orbits of satellites and planets. Principle and applications of satellite gravimetry and satellite altimetry.
This course may not be repeated for credit.
Prerequisite(s)
- Geomatics Engineering 421, and one of Geomatics Engineering 327 or Electrical Engineering 327.
Sections
| LEC 1 | MWF 12:00 - 12:50
| | Elena Rangelova | | |
| Notes: RESTRICTED TO ENGO STUDENTS ONLY. OTHER STUDENTS MUST HAVE DEPARTMENTAL APPROVAL |
| LAB 1 | M 14:00 - 16:50
| | Elena Rangelova | | |
| Notes: RESTRICTED TO ENGO STUDENTS ONLY. OTHER STUDENTS MUST HAVE DEPARTMENTAL APPROVAL |
This course will be offered next in
Winter 2017.