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Course info
KGI / TRITE
:
Course description
Department/Unit / Abbreviation
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KGI
/
TRITE
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Academic Year
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2024/2025
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Academic Year
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2024/2025
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Title
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3D Technologies
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Form of course completion
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Exam
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Form of course completion
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Exam
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Accredited / Credits
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Yes,
4
Cred.
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Type of completion
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Combined
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Type of completion
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Combined
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Time requirements
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Lecture
1
[Hours/Week]
Exercise
2
[Hours/Week]
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Course credit prior to examination
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Yes
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Course credit prior to examination
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Yes
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Automatic acceptance of credit before examination
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No
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Included in study average
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YES
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Language of instruction
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Czech, English
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Occ/max
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|
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Automatic acceptance of credit before examination
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No
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Summer semester
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0 / -
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0 / -
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0 / -
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Included in study average
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YES
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Winter semester
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0 / -
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0 / -
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0 / 2
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Repeated registration
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NO
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Repeated registration
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NO
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Timetable
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Yes
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Semester taught
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Winter semester
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Semester taught
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Winter semester
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Minimum (B + C) students
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not determined
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Optional course |
Yes
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Optional course
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Yes
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Language of instruction
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Czech, English
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Internship duration
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0
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No. of hours of on-premise lessons |
0
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Evaluation scale |
A|B|C|D|E|F |
Periodicity |
každý rok
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Evaluation scale for credit before examination |
S|N |
Periodicita upřesnění |
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Fundamental theoretical course |
No
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Fundamental course |
Yes
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Fundamental theoretical course |
No
|
Evaluation scale |
A|B|C|D|E|F |
Evaluation scale for credit before examination |
S|N |
Substituted course
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None
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Preclusive courses
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N/A
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Prerequisite courses
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N/A
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Informally recommended courses
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N/A
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Courses depending on this Course
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N/A
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Histogram of students' grades over the years:
Graphic PNG
,
XLS
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Course objectives:
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The aim of the course is to acquaint students with the main 3D technologies used to present spatial data. The main emphasis will be given to creation and acquisition of 3D models and their subsequent processing for display using virtual reality, 3D printing and haptic environments.
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Requirements on student
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Knowledge of topics within the content of the course (exam, exercises, seminar work).
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Content
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1. Data sources and data sets for creating 3D models
2. Creation of 3D models from spatial data - methods, tools, SW
3. Format conversions and compatibility, three.js library
4. Model preparation and visualization of 3D models in virtual reality
5. Preparation of models for 3D printing
6. 3D printers and 3D printing methods
7. Materials for 3D printing
8. Optimization of models, materials, testing of models
9. Use of 3D models in geoinformatics, integration of 3D models and projection
10. Tangible Landscape
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Activities
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Fields of study
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Guarantors and lecturers
|
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Literature
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-
Basic:
Parisi, T. Learning virtual reality: Developing immersive experiences and applications for desktop, web, and mobile. O'Reilly..
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Basic:
Petrasova, A., Harmon, B., Petras, V., Tabrizian, P., & Mitasova, H. (2018). Tangible modeling with open source GIS.
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Basic:
Jerald, J. (2016). The VR book: Human-centered design for virtual reality.
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Basic:
Noorani, R. (2018). 3D printing: Technology, applications, and selection.
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Recommended:
Somma, V., & Castilhos, M. F. (2017). Blender 3D Printing by Example: Learn to use Blender's modeling tools for 3D printing by creating 4 projects.
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Recommended:
Brus, J., Barvíř, R. (2015). Coping with Integrating Low-Cost 3D Printing and Surface Models: A Case Study on Prusa i3 Surface Models for Geosciences.
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Recommended:
Florinsky, I. V. (2016). Digital terrain analysis in soil science and geology.
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Recommended:
Brightman, M. (2013). The SketchUp workflow for architecture: Modeling buildings, visualizing design, and creating construction documents with SketchUp Pro and LayOut..
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On-line library catalogues
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Prerequisites - other information about course preconditions |
Knowledge of topics within the content of the course (exam, exercises, seminar work). |
Competences acquired |
The course is aimed at acquiring knowledge.
Define the main concepts, describe the main approaches, demonstrate theoretical knowledge for solving model problems. |
Teaching methods |
- Lecture
- Demonstration
- Grafic and Art Activities
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Assessment methods |
- Mark
- Written exam
- Seminar Work
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