- International Fees
International fees are typically 3.12 times the domestic tuition. Exact cost will be calculated upon completion of registration.
Course Overview
The emphasis of this course is on the practical applications of adjustment computations. It covers the theory of observational errors, measures of precision and accuracy; propagation law of errors; weights and propagation of weights; confidence region estimation and statistical hypothesis testing; principle of adjustment by traditional methods (Transit, Compass, Crandall’s rules); concepts of least squares adjustment; adjustment of parametric models with constraint equations, pre- and post-adjustment tests to detect blunders, which includes, but not limited to, using computer programming languages/commercial software packages to design 1D, 2D, and 3D survey networks, and analyze curve-fitting and coordinate transformation problems.
- Not offered this term
- This course is not offered this term. Please check back next term or subscribe to receive notifications of future course offerings and other opportunities to learn more about this course and related programs.
Learning Outcomes
Upon successful completion of this course, the student will be able to:
- Explain the theory of errors, precisions, accuracy and weights, of geospatial measurements.
- Apply the error and variance-covariance propagation laws to geomatics measurements.
- Relate the concepts of estimation, probability, hypothesis testing and statistics.
- Use statistical method to assess the magnitudes of errors in surveying measurements (including the means and variances).
- Use Transit, Compass and Crandall’s rules to adjust traverse networks.
- Discuss the assumptions, concept, advantages, disadvantages and applications of least squares adjustment.
- Formulate parametric model equations of survey measurements for least squares adjustment.
- Apply the principle of parametric least squares adjustment to adjust simple survey network measurements.
- Solve practical geomatics problems, including 1D, 2D and 3D survey networks adjustment and pre-analyses, curve-fitting, and coordinate transformations using a commercial least squares adjustment package.
- Perform post adjustment global and local tests to detect outliers in measurements and to evaluate quality of adjustment computations using commercial software.
- Adjust simple survey measurements using a computer programming language.
Effective as of Winter 2018
Programs and courses are subject to change without notice.