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Syllabus ( GEO 310 )


   Basic information
Course title: Photogrammetry II
Course code: GEO 310
Lecturer: Assoc. Prof. Dr. Bahadır ERGÜN
ECTS credits: 4
GTU credits: 3 ()
Year, Semester: 2019-2020, Spring
Level of course: First Cycle (Undergraduate)
Type of course: Compulsory
Language of instruction: Turkish
Mode of delivery: Face to face
Pre- and co-requisites: Photogrammetry I
Professional practice: No
Purpose of the course: With this course students, mathematical and optical model about the data and acqusation systems is intended to be in-depth knowledge in Photogrammetric surveying. In addition to this, students have to be able to information about using hardware-software components for photogrammetric evaluation.
   Learning outcomes Up

Upon successful completion of this course, students will be able to:

  1. Upon successful completion of the course, the students will be able to: -identify the fundamentals of mathematical and optical basic for photogrammetry.

    Contribution to Program Outcomes

    1. Obtain basic knowledge of Geomatics Engineering
    2. Define and analyze engineering problems,

    Method of assessment

    1. Written exam
    2. Homework assignment
  2. Upon successful completion of the course, the students will be able to:-have ability to basic of the photogrammetric survey via fundamental mathematical and optical process of the photogrammetry.

    Contribution to Program Outcomes

    1. Obtain basic knowledge of Geomatics Engineering
    2. Define and analyze engineering problems,
    3. Recognize, analyze and solve engineering problems in surveying, planning, GIS and remote sensing fields
    4. Acquire scientific knowledge

    Method of assessment

    1. Written exam
    2. Homework assignment
  3. Upon successful completion of the course, the students will be able to:-have ability to use Pix4D software for surveying.

    Contribution to Program Outcomes

    1. Obtain basic knowledge of Geomatics Engineering
    2. Recognize, analyze and solve engineering problems in surveying, planning, GIS and remote sensing fields
    3. Use modern equipment and software packages related to Geomatics Engineering
    4. Demonstrate professional and ethical responsibility.

    Method of assessment

    1. Written exam
    2. Homework assignment
   Contents Up
Week 1: Three Dimensional Transformations Between Coordinate Systems:
Conformal, Affinne and linear three dimensional coordinate transformations have been defined image between spatial coordinate systems within examples.
Week 2: Spatial Resection:
Spatial resection has been defined for calculation of estimate orientation parameters within examples.
Week 3: Analytic Relative Orientation in Photogrammetry:
Analytic relative orientation has been defined for calculation of outer orientation parameters in stereo model within examples.
Week 4: Analytic Absolute Orientation in Photogrammetry:
Analytic absolute orientation has been defined for calculation of outer orientation parameters in stereo model within examples.
Week 5: Aerial Triangulation and Using Inertial Measurement Unit:
Aerial triangulation geometry has been defined about the flight planning and measurement data acqusation has been defined about IMU measurements.
Week 6: Bundle Adjustment in Photogrammetry:
Bundle adjustment has been defined for calculation of outer orientation via all images within examples.
Week 7: Bundle Adjustment in Photogrammetry. Mid-term Exam.
Week 8: Epipolar-ray Geometry and Production of Ortho-Photo:
Coordinate calculation has been defined via Epipolar-ray geometry and rectification of photos has been defined for producing ortho-photo.
Week 9: Error Estimation in Photogrammetric Surveying:
Positional error estimation calculations has been defined within examples in Photogrammetric Surveying.
Week 10: Project Planning in Photogrammetry:
Project planning in digital photogrammetry has been defined as a survey and office study via empirical error estimation.
Week 11: Photogrammetric Evaluation Methods:
Photogrammetric evaluation methods have been defined especially softcopy method.
Week 12: Orientation in Softcopy Plotting:
Orientation in image processing software has been defined within computer practice.
Week 13: Evaulation in Softcopy Plotting:
Evaulation in image processing software has been defined within computer practice.
Week 14: Producing Ortho-Photo in Softcopy Plotting:
Producing digital map and digital ortho-photo has been defined in image processing software within computer practice.
Week 15*: -
Week 16*: Final Exam.
Textbooks and materials: Fotogrametri Cilt I, ISBN:978-9944-77-176-4,Nobel Yayınevi,2007
Fotogrametri Ders Notları
Recommended readings: Photogrammetry I-II, Karl Kraus, ISBN:3427786846, Dümmler&Verlag, 1993
Elements of Photogrammetry, Paul R. Wolf, ISBN:9780071761123, McGraw-Hill Comp., 2000
  * Between 15th and 16th weeks is there a free week for students to prepare for final exam.
Assessment Up
Method of assessment Week number Weight (%)
Mid-terms: 7 30
Other in-term studies: 0
Project: 0
Homework: 6-14 10
Quiz: 0
Final exam: 16 60
  Total weight:
(%)
   Workload Up
Activity Duration (Hours per week) Total number of weeks Total hours in term
Courses (Face-to-face teaching): 3 14
Own studies outside class: 1 14
Practice, Recitation: 1 14
Homework: 1 8
Term project: 0 0
Term project presentation: 0 0
Quiz: 0 0
Own study for mid-term exam: 2 5
Mid-term: 2 1
Personal studies for final exam: 2 6
Final exam: 3 1
    Total workload:
    Total ECTS credits:
*
  * ECTS credit is calculated by dividing total workload by 25.
(1 ECTS = 25 work hours)
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