- Hrvatski
Course content
Transformation of Coordinates
- Code:
- 143188
- Abbreviation:
- B12B05
- Higher education institution:
- Faculty of Geodesy
- ECTS credits:
- 3.0
- Load:
- 15(L) + 30(E)
- Issuing teachers:
-
Associate Professor Ivka Kljajić, PhD
- Course contractors:
-
Associate Professor Ivka Kljajić, PhD (L, E)
- Course description:
- The objectives of this course are: - Teach students basic mappings used in geodesy and geoinformatics. - Explain unavoidable distortions that appear in different mappings. - Create a foundation that will help in understanding the transformation and conversion that will be processed in details in other courses. Learning outcomes at the level of the programme to which the course contributes - Demonstrate competences in theoretical principles, procedures of computing and visualising the surveying data. - Understand mathematical methods and physical laws applied in geodesy and geoinformatics. - Apply knowledge of mathematics and physics for the purpose of recognizing, formulating and solving of problems in the field of geodesy and geoinformatics. - Use information technology in solving geodetic and geoinformation tasks. - Recognise problems and tasks in the application of geodetic and geoinformation principles and methods, and select proper procedures for their solution. Learning outcomes expected at the level of the course</strong> - Distinguish the basic coordinate systems in Geodesy and Geoinformatics - Describe basic types of mappings from a plane to a plane, from a plane to a space, from a space to a plane and from a space to a space and their characteristics - Estimate distortions that appears in mappings - Apply Helmert, affine and projective transformation - Apply transformations by using CAD and GIS computer programs, especially geocoding and georeferencing - Use software for coordinate transformations - Estimate suitability of different methods for coordinate transformation Course content broken down in detail by weekly class schedule (syllabus) - Introduction - Coordinate systems - Mappings from a plan to a plane - Mappings from a plane to a space - Mappings from a space to a space - Distortions appearing in mappings - Inverse mappings - Helmert transformatino and its application in geodesy and surveying - Affine transformation and its application in geodesy and surveying - Projective transformation and its application in geodesy and surveying - Transformation and CAD software - Geocoding, georeferencing - Software for coordinate transformations Screening student work - Class attendance - 1.8 ECTS - Learning and preparation for preliminary and final exams (other) - 2.2 ECTS
- Mandatory literature:
-
1. Lapaine, M.: Transformacija koordinata, rukopis, Geodetski fakultet, Zagreb 2012.
- Recommended literature:
-
2. Frančula, N., Lapaine, M. i Petrović, S.: Transformacija sadržaja karte iz jedne kartografske projekcije u drugu. Zbornik radova VI međunarodnog simpozija Kompjuter na sveučilištu. Dubrovnik: Sveučilišni računski centar Zagreb, 1984, 608.1608.8
3. Lapaine, M. i Frančula, N.: Prilog ocjeni točnosti pri afinoj transformaciji. Zbornik radova Savetovanja "Katastar nepokretnosti". Ilidža-Sarajevo 26.-27. 10. 1990.: Savez geodetskih inženjera i geometara Jugoslavije, 63-76.
4. Lapaine, M.: A New Direct Solution of the Transformation Problem of Cartesian into Ellipsoidal Coordinates. Presented at the First International Geoid Commission Symposium, Milano, 11-13. 6. 1990. Published in: Rapp, R. and Sanso, F. (Eds.): Determination of the Geoid, Present and Future. Springer Verlag, Proceedings from the International Association of Geodesy Symposia, 1991, Vol. 106, 395-404.
5. Frančula, N., Vučetić, N. i Lapaine, M.: Transformacije i geoinformacijski sistemi. Zbornik Geodetskog fakulteta Sveučilišta u Zagrebu u povodu 30. obljetnice samostalnog djelovanja, Zagreb, 1992, 177-186.
6. Lapaine, M. i Frančula, N.: Vpliv pogreška ene točke na natančnost afine transformacije. Referat: Kartografija, 26. geodetski dan Zveze geodetov Slovenije, Bled 14.-16. 10. 1993. Objavljeno u: Geodetski vestnik 1993, 3, 193-197.
7. Lapaine, M., Frančula, N.: Osvrt na afinu transformaciju. Geodetski list 1994, 2, 159-168.
8. Frančula, N., Lapaine, M.: Transformacija koordinata iz Krimskog sustava na području Istre u Gauss-Krügerovu projekciju, Geodetski list 2007, 3, 175-181.
9. Frančula, N., Lapaine, M., Tutić, D., Manojlović, B.: Transformacija koordinata iz Bečkog sustava na području Hrvatske u Gauss-Kruigerovu projekciju, sažetak u: Lapaine, M. (urednik): Program i sažetci : Program and Abstracts, 2. hrvatski NIPP i INSPIRE dan i savjetovanje Kartografija i geoinformacije, Opatija, 25-27. 11. 2010., 47.
10. Tutić, D., Lapaine, M.: INSPIRE-servis za transformacije koordinata, sažetak u: Lapaine, M. (urednik): Program i sažetci : Program and Abstracts, 2. hrvatski NIPP i INSPIRE dan i savjetovanje Kartografija i geoinformacije, Opatija, 25-27. 11. 2010., 72.
11. Lapaine, M., Tutić, D.: Helmertova i afina transformacija. 7. simpozij ovlaštenih inženjera geodezije, Uloga geodezije u uređenju zemljišta i upravljanju prostorom, Opatija, 24-26. 10. 2014., Zbornik radova, ur. I. Racetin, Hrvatska komora ovlaštenih inženjera geodezije, 85-90.
- Course in study programme:
-
Code Name of study Level of study Semester Required/Elective 71 Geodesy and Geoinformatics undergraduate 2 elective 71 Geodesy and Geoinformatics undergraduate 4 elective * the course is not taught in that semester
Legend
- E - Exercises
- L - Lectures