• Aviation, Semester 3, position 4
• Mašinstvo i informacione tehnologije, Semester 3, position 4

Course objective • Understanding the importance of project management in aviation. • The creation, introduction and use of aviation projects. • Determining the functionality of your own projects. • Preparation, analysis and project management. • Understanding and preparing the necessary documents for the implementation of projects.

The acquired knowledge enables the student to: • Prepare, create and show their own skills, • Determine the functionality of the aviation project, • Prepare, perform and manage the development of the aviation project, • Determine technology of designing an aviation project, • Recognize the requirements of the local aviation industry in projects, • Make the necessary documentation of aviation project, • Implement and collect aviation project.

MODERN APPROACHES IN DESIGN (feasibility study, the methodology of improvement, modeling) Project management (requirements, quality, time, cost, standards) IMPLEMENTATION OF PROJECTS (initialization, implementation, monitoring and control, cost efficient) SPECIFICS IN AIRCRAFT DESIGN (strategy in the region; aviation terminology) WEIGHT AND PERFORMANCE REQUIREMENTS (zones on the aircraft, the speed limit requirements; flight performance) Aviation law (aviation regulations, certification, airworthiness) REGULATIONS REGARDING SECURITY (human factors, safety precautions,emergency procedures) REGULATIONS OF MONITORING AND FLIGHT (planning, defining and tracking the flight operations manual, flight plan revision) PRACTICAL CONSTRUCTION PROJECT (information gathering, development,simulation of project)

Parameter identification and selection of software for designing. Determination of technology and pricing of the project. Defining the requirements of aircraft weight and performance. The requirements in terms of technological and structural concepts of the aircraft. Aviation security. Aeronautical terminology. Development of wind rose. Speed ​​limit requirements. Aerodynamic design of aircraft performance and sizing, performance requirements takeoff, landing and the other flight regimes. Category airworthiness of the aircraft. Analysis of air regulations. Application of CAD technology. Define data visualization. Defining the contours of the aircraft. The design of the aircraft. Modeling of aircraft structure. Systematization of documentation. Research on aircraft accidents. Analysis of the project.

'defined curriculum of study program / ​​modules'

To cope with the case, it is necessary the use of textbooks, manuals for the project, a handout, Internet resources. IT equipment (hardware, CAD workstations, software (CAD, SSO, RRO) pcs. Equipment) ICT, available in the laboratory Aerotechnical Institute).

Total assigned hours: 75

New material: 30
Elaboration and examples (recapitulation): 0

Auditory exercises: 0
Laboratory exercises: 6
Calculation tasks: 0
Seminar paper: 5
Project: 15
Consultations: 0
Discussion/workshop: 4
Research study work: 0

Review and grading of calculation tasks: 0
Review and grading of lab reports: 0
Review and grading of seminar papers: 5
Review and grading of the project: 2
Test: 0
Test: 3
Final exam: 5

Activity during lectures: 5
Test/test: 30
Laboratory practice: 0
Calculation tasks: 0
Seminar paper: 15
Project: 20
Final exam: 30
Requirement for taking the exam (required number of points): 35

Aviation Project Management, Triant Flouris and Dennis Lock; Air Law , ЈАА - Joint Aviation Authorities, Theoretical Training Manual, Oxford, 2004; European Aviation Safety Agency, Certification Specifications for Normal, Utility, Aerobatic, and Commuter Category Aeroplanes CS23, February 2009; Аviation regulations, textbook in preparation, Faculty of Mechanical Engineering, Č. Mitrovic