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Course details
Student Mobility > Programmes and Courses > Courses in English > Course detailsUnmanned Aerial Vehicles Equipment
- Teaching:
- ECTS:
- Level:
- Semester:
- Prerequisites:
- There are no prerequisites for this class.
- Load:
Lectures Exercises Laboratory exercises Project laboratory Physical education excercises Field exercises Seminar Design exercises Practicum 30 15 0 0 0 0 0 0 - Course objectives:
- To understand structure and dynamics of systems which are necessary for proper functioning of aerial vehicles and unmanned aerial vehicles of diverse types and purposes.
- Student responsibilities:
- Grading and evaluation of student work over the course of instruction and at a final exam:
- continuous evaluation of work and motivation during classes - evaluation of colloquia and seminars, or exam
- Methods of monitoring quality that ensure acquisition of exit competences:
- analysis of nonstructured classes" discussions - analisys seminar's quality levels
- Upon successful completion of the course, students will be able to (learning outcomes):
- Know the types and functions of the equipment of aircraft. - Competent use models of aircraft equipment for innovative applications. - Active and interdisciplinary application of basic features of innovative approach to aircraft equipment. - Use the principles underlying the operation of modern aircraft equipment. - Assess the mutual influence of different principles represented in aircraft equipment.
- Lectures
- 1. Introduction. Classification of aerial vehicles.
- 2. Historical development of aerial vehicles.
- 3. Classification and historical development of aerial vehicles" equipment.
- 4. Elements of aerial vehicles" equipment.
- 5. Equipment for pilotage.
- 6. Equipment for pilotage.
- 7. Equipment for navigation.
- 8. Equipment for navigation.
- 9. Equipment for environment conditioning.
- 10. Equipment for environment conditioning.
- 11. Equipment for monitoring aerial vehicles" emmissions.
- 12. Equipment for monitoring aerial vehicles" emmissions.
- 13. Specific equipment of some aerial vehicles" types.
- 14. Specific equipment of some aerial vehicles" types.
- 15. Projections of development of aerial vehicles" equipment.
- Exercises
- 1. Characteristic examples of development of aerial and unmanned vehicles" equipment.
- 2. Characteristic examples of development of aerial and unmanned vehicles equipment.
- 3. Characteristic examples of development of aerial and unmanned vehicles" equipment.
- 4. Examples of elements of aerial vehicles" equipment.
- 5. Examples of elements of aerial vehicles" pilotage equipment.
- 6. Examples of elements of unmanned vehicles" pilotage equipment.
- 7. Examples of elements of aerial vehicles" navigation equipment.
- 8. Examples of elements of unmanned vehicles" navigation equipment.
- 9. Examples of elements of unmanned vehicles" navigation equipment.
- 10. Examples of elements of aerial vehicles" conditioning equipment.
- 11. Examples of elements of unmanned vehicles" conditioning equipment.
- 12. Examples of aerial vehicles" equipment for emmission monitoring.
- 13. Examples of specific equipment of some aerial vehicles" types.
- 14. Examples of specific equipment of unmanned aerial vehicles.
- 15. Case studies of development of unmanned aerial vehicles.
- Compulsory literature:
- C. Johnson: Jane"s Avionics 1997-98. Janes Information Group, 1997,
J.W.R. Taylor: Jane"s Pocket Book of Remote Piloted Vehicles: Robot Aircraft Today. Collier Books, 1977. - Recommended literature:
- J. Stepanić: Aircraft Navigation Instruments. Handbook. Faculty of Mechanical Engineering & Naval Architecture University of Zagreb, Zagreb, 2015,
J. Stepanić: Aircraft Instruments of Flight Control. Handbook. Faculty of Mechanical Engineering & Naval Architecture University of Zagreb, Zagreb, 2015.