1- Eren K., UZEL T., CORS TR, 2008
2- UZEL T.: Jeodezik Amaçlı Elektromagnetik Ölçmeler, İstanbul 1981
3- Leick A., GPS Satellite Surveying, 1995
4- Hoffman-Wellenhof B., Lichtenegger H., Collins J., GPS: Theory and Practice, 2001
5- Seeber G., Satellite Geodesy: Foundations, methods and applications, 1993 6- Kuala W.M., Theory of Satellite Geodesy, 2000
Course Schedules
Week
Contents
Learning Methods
1. Week
Introduction
Lecture and discussion
2. Week
Geodetic surveying equipments & systems
Lecture and discussion
3. Week
Geodetic surveying equipments & systems
Lecture and discussion
4. Week
Micro geodetic nets
Lecture and discussion
5. Week
Micro geodetic nets
Lecture and discussion
6. Week
3D definition of projects and data acquisition
Lecture and discussion
7. Week
Types of applications & calculation of elements
Lecture and discussion
8. Week
Types of applications & calculation of elements
Lecture and discussion
9. Week
Establishment of large dams
Lecture and discussion
10. Week
Establishment of large bridge
Lecture and discussion
11. Week
Establishment of tunnel axis
Lecture and discussion
12. Week
Establishment of towers and cranes
Lecture and discussion
13. Week
Establishment of industrial chimneys
Lecture and discussion
14. Week
As-built surveys
Lecture and discussion
15. Week
16. Week
17. Week
Assessments
Evaluation tools
Quantity
Weight(%)
Midterm(s)
1
25
Homework / Term Projects / Presentations
1
25
Final Exam
1
50
Program Outcomes
PO-1
Develop and deepen knowledge in the field of Geomatics Engineering.
PO-2
Conceive the interdisciplinary interaction which the field of Geomatics Engineering is related with.
PO-3
Use of theoretical and practical knowledge within the field of Geomatics Engineering at a proficiency level.
PO-4
Interpret the knowledge about the field of Geomatics Engineering by integrating the information gathered from different disciplines and formulate new knowledge.
PO-5
Solve the problem faced related to the field of Geomatics Engineering by using research methods.
PO-6
Independently conduct studies that require proficiency in the field of Geomatics Engineering
PO-7
Take responsibility and develop new strategic solutions as a team member in order to solve unexpected complex problems faced within the applications in the field of Geomatics Engineering.
PO-8
Demonstrate leadership in contexts that require solving problems related to the field of Geomatics Engineering.
PO-9
Evaluate knowledge and skills acquired at proficiency level in the field of Geomatics Engineering with a critical approach and direct the learning.
PO-10
Communicate current developments and studies within the field of Geomatics Engineering to both professional and non-professional groups systematically using written, oral and visual techniques by supporting with quantitative and qualitative data.
PO-11
Investigate, improve social connections and their conducting norms with a critical view and act to change them when necessary.
PO-12
Communicate with peers by using a foreign language at least at a level of European Language Portfolio B2 General Level.
PO-13
Use advanced informatics and communication technology skills with software knowledge required by the field of Geomatics Engineering.
PO-14
Audit the data gathering, interpretation, implementation and announcement stages by taking into consideration the cultural, scientific, and ethical values and teach these values.
PO-15
Develop strategy, policy and implementation plans on the issues related to the field and assess the findings within the frame of quality processes.
PO-16
Use the knowledge, problem solving and/or implementation skills in interdisciplinary studies.
Learning Outcomes
LO-1
To learn geodetic surveying equipment and systems.
