Advanced Avionic Systems
Aviation Sciences and Technologies
Institute of Natural and Applied Sciences
Third Cycle (Doctorate Degree)
| Course Unit Title | Course Unit Code | Type of Course Unit | Level of Course Unit | Year of Study | Semester | ECTS Credits |
|---|---|---|---|---|---|---|
| Advanced Avionic Systems | HVA605 | Elective | Doctorate degree | 1 | Fall | 8 |
Name of Lecturer(s)
Associate Prof. Dr. Satılmış ÜRGÜN
Learning Outcomes of the Course Unit
1) Knows the definition of avionic system
2) Know existing Avionic systems such as VOR, ADF, DME.
3) Knows new generation GPS-based navigation systems
4) Knows the new generation GPS based landing systems.
5) Knows new generation warning systems such as GPWS and TCAS.
6) Knows the mathematical methods used in autopilot systems.
Program Competencies-Learning Outcomes Relation
| Program Competencies | ||||||
| 1 | 2 | 3 | 4 | 5 | ||
| Learning Outcomes | ||||||
| 1 | High | Middle | Middle | Low | Low | |
| 2 | High | Middle | Middle | Low | Low | |
| 3 | High | Middle | Middle | Low | Low | |
| 4 | High | Middle | Middle | Low | Low | |
| 5 | High | Middle | Middle | Low | Low | |
| 6 | No relation | No relation | No relation | Low | Low | |
Mode of Delivery
Face to Face
Prerequisites and Co-Requisites
None
Recommended Optional Programme Components
Advanced Technology Navigation System
Course Contents
Introduction to advanced avionics, Basic Radio-Navigation systems, Radar altimeter and error model, Inertial navigation principles and Schuler adjustment, Working principle and error model of vertical navigation channel of Inertial Navigation System, Assisted inertia systems, Basic principles of GPS, Other Global Satellite Navigation Systems , Working Principle of Instrument Landing System, Ground Equipment of Instrument Landing System, Claret Red Equipment of Instrument Landing System, Traffic Warning and Anti-Collision System, Traffic Warning and Anti-Collision System equipment and working principle, Automatic flight control, Autopilot concept and basic principles, Basic guidance methods , Kalman Filter (KS) concept, Linear (LKF), extended (EKF), non-intuitive (UKF) Kalman filters, Kalman filter based integrated navigation systems, Integration of Inertial Navigation System with GPS via complementary KS.
Weekly Schedule
1) Introduction to advanced avionics, Basic Radio-Navigation systems, Radar altimeter and error model, Inertial navigation principles and Schuler adjustment, Working principle and error model of vertical navigation channel of Inertial Navigation System, Assisted inertia systems, Basic principles of GPS, Other Global Satellite Navigation Systems , Working Principle of Instrument Landing System, Ground Equipment of Instrument Landing System, Claret Red Equipment of Instrument Landing System, Traffic Warning and Anti-Collision System, Traffic Warning and Anti-Collision System equipment and working principle, Automatic flight control, Autopilot concept and basic principles, Basic guidance methods , Kalman Filter (KS) concept, Linear (LKF), extended (EKF), non-intuitive (UKF) Kalman filters, Kalman filter based integrated navigation systems, Integration of Inertial Navigation System with GPS via complementary KS.2) Introduction to advanced avionics, Basic Radio-Navigation systems, Radar altimeter and error model, Inertial navigation principles and Schuler adjustment, Working principle and error model of vertical navigation channel of Inertial Navigation System, Assisted inertia systems, Basic principles of GPS, Other Global Satellite Navigation Systems , Working Principle of Instrument Landing System, Ground Equipment of Instrument Landing System, Claret Red Equipment of Instrument Landing System, Traffic Warning and Anti-Collision System, Traffic Warning and Anti-Collision System equipment and working principle, Automatic flight control, Autopilot concept and basic principles, Basic guidance methods , Kalman Filter (KS) concept, Linear (LKF), extended (EKF), non-intuitive (UKF) Kalman filters, Kalman filter based integrated navigation systems, Integration of Inertial Navigation System with GPS via complementary KS.
3) Introduction to advanced avionics, Basic Radio-Navigation systems, Radar altimeter and error model, Inertial navigation principles and Schuler adjustment, Working principle and error model of vertical navigation channel of Inertial Navigation System, Assisted inertia systems, Basic principles of GPS, Other Global Satellite Navigation Systems , Working Principle of Instrument Landing System, Ground Equipment of Instrument Landing System, Claret Red Equipment of Instrument Landing System, Traffic Warning and Anti-Collision System, Traffic Warning and Anti-Collision System equipment and working principle, Automatic flight control, Autopilot concept and basic principles, Basic guidance methods , Kalman Filter (KS) concept, Linear (LKF), extended (EKF), non-intuitive (UKF) Kalman filters, Kalman filter based integrated navigation systems, Integration of Inertial Navigation System with GPS via complementary KS.
4) Introduction to advanced avionics, Basic Radio-Navigation systems, Radar altimeter and error model, Inertial navigation principles and Schuler adjustment, Working principle and error model of vertical navigation channel of Inertial Navigation System, Assisted inertia systems, Basic principles of GPS, Other Global Satellite Navigation Systems , Working Principle of Instrument Landing System, Ground Equipment of Instrument Landing System, Claret Red Equipment of Instrument Landing System, Traffic Warning and Anti-Collision System, Traffic Warning and Anti-Collision System equipment and working principle, Automatic flight control, Autopilot concept and basic principles, Basic guidance methods , Kalman Filter (KS) concept, Linear (LKF), extended (EKF), non-intuitive (UKF) Kalman filters, Kalman filter based integrated navigation systems, Integration of Inertial Navigation System with GPS via complementary KS.
5) Introduction to advanced avionics, Basic Radio-Navigation systems, Radar altimeter and error model, Inertial navigation principles and Schuler adjustment, Working principle and error model of vertical navigation channel of Inertial Navigation System, Assisted inertia systems, Basic principles of GPS, Other Global Satellite Navigation Systems , Working Principle of Instrument Landing System, Ground Equipment of Instrument Landing System, Claret Red Equipment of Instrument Landing System, Traffic Warning and Anti-Collision System, Traffic Warning and Anti-Collision System equipment and working principle, Automatic flight control, Autopilot concept and basic principles, Basic guidance methods , Kalman Filter (KS) concept, Linear (LKF), extended (EKF), non-intuitive (UKF) Kalman filters, Kalman filter based integrated navigation systems, Integration of Inertial Navigation System with GPS via complementary KS.
6) Introduction to advanced avionics, Basic Radio-Navigation systems, Radar altimeter and error model, Inertial navigation principles and Schuler adjustment, Working principle and error model of vertical navigation channel of Inertial Navigation System, Assisted inertia systems, Basic principles of GPS, Other Global Satellite Navigation Systems , Working Principle of Instrument Landing System, Ground Equipment of Instrument Landing System, Claret Red Equipment of Instrument Landing System, Traffic Warning and Anti-Collision System, Traffic Warning and Anti-Collision System equipment and working principle, Automatic flight control, Autopilot concept and basic principles, Basic guidance methods , Kalman Filter (KS) concept, Linear (LKF), extended (EKF), non-intuitive (UKF) Kalman filters, Kalman filter based integrated navigation systems, Integration of Inertial Navigation System with GPS via complementary KS.
7) Introduction to advanced avionics, Basic Radio-Navigation systems, Radar altimeter and error model, Inertial navigation principles and Schuler adjustment, Working principle and error model of vertical navigation channel of Inertial Navigation System, Assisted inertia systems, Basic principles of GPS, Other Global Satellite Navigation Systems , Working Principle of Instrument Landing System, Ground Equipment of Instrument Landing System, Claret Red Equipment of Instrument Landing System, Traffic Warning and Anti-Collision System, Traffic Warning and Anti-Collision System equipment and working principle, Automatic flight control, Autopilot concept and basic principles, Basic guidance methods , Kalman Filter (KS) concept, Linear (LKF), extended (EKF), non-intuitive (UKF) Kalman filters, Kalman filter based integrated navigation systems, Integration of Inertial Navigation System with GPS via complementary KS.
8) Midterm Exam
9) Introduction to advanced avionics, Basic Radio-Navigation systems, Radar altimeter and error model, Inertial navigation principles and Schuler adjustment, Working principle and error model of vertical navigation channel of Inertial Navigation System, Assisted inertia systems, Basic principles of GPS, Other Global Satellite Navigation Systems , Working Principle of Instrument Landing System, Ground Equipment of Instrument Landing System, Claret Red Equipment of Instrument Landing System, Traffic Warning and Anti-Collision System, Traffic Warning and Anti-Collision System equipment and working principle, Automatic flight control, Autopilot concept and basic principles, Basic guidance methods , Kalman Filter (KS) concept, Linear (LKF), extended (EKF), non-intuitive (UKF) Kalman filters, Kalman filter based integrated navigation systems, Integration of Inertial Navigation System with GPS via complementary KS.
10) Introduction to advanced avionics, Basic Radio-Navigation systems, Radar altimeter and error model, Inertial navigation principles and Schuler adjustment, Working principle and error model of vertical navigation channel of Inertial Navigation System, Assisted inertia systems, Basic principles of GPS, Other Global Satellite Navigation Systems , Working Principle of Instrument Landing System, Ground Equipment of Instrument Landing System, Claret Red Equipment of Instrument Landing System, Traffic Warning and Anti-Collision System, Traffic Warning and Anti-Collision System equipment and working principle, Automatic flight control, Autopilot concept and basic principles, Basic guidance methods , Kalman Filter (KS) concept, Linear (LKF), extended (EKF), non-intuitive (UKF) Kalman filters, Kalman filter based integrated navigation systems, Integration of Inertial Navigation System with GPS via complementary KS.
11) Introduction to advanced avionics, Basic Radio-Navigation systems, Radar altimeter and error model, Inertial navigation principles and Schuler adjustment, Working principle and error model of vertical navigation channel of Inertial Navigation System, Assisted inertia systems, Basic principles of GPS, Other Global Satellite Navigation Systems , Working Principle of Instrument Landing System, Ground Equipment of Instrument Landing System, Claret Red Equipment of Instrument Landing System, Traffic Warning and Anti-Collision System, Traffic Warning and Anti-Collision System equipment and working principle, Automatic flight control, Autopilot concept and basic principles, Basic guidance methods , Kalman Filter (KS) concept, Linear (LKF), extended (EKF), non-intuitive (UKF) Kalman filters, Kalman filter based integrated navigation systems, Integration of Inertial Navigation System with GPS via complementary KS.
12) Introduction to advanced avionics, Basic Radio-Navigation systems, Radar altimeter and error model, Inertial navigation principles and Schuler adjustment, Working principle and error model of vertical navigation channel of Inertial Navigation System, Assisted inertia systems, Basic principles of GPS, Other Global Satellite Navigation Systems , Working Principle of Instrument Landing System, Ground Equipment of Instrument Landing System, Claret Red Equipment of Instrument Landing System, Traffic Warning and Anti-Collision System, Traffic Warning and Anti-Collision System equipment and working principle, Automatic flight control, Autopilot concept and basic principles, Basic guidance methods , Kalman Filter (KS) concept, Linear (LKF), extended (EKF), non-intuitive (UKF) Kalman filters, Kalman filter based integrated navigation systems, Integration of Inertial Navigation System with GPS via complementary KS.
13) Introduction to advanced avionics, Basic Radio-Navigation systems, Radar altimeter and error model, Inertial navigation principles and Schuler adjustment, Working principle and error model of vertical navigation channel of Inertial Navigation System, Assisted inertia systems, Basic principles of GPS, Other Global Satellite Navigation Systems , Working Principle of Instrument Landing System, Ground Equipment of Instrument Landing System, Claret Red Equipment of Instrument Landing System, Traffic Warning and Anti-Collision System, Traffic Warning and Anti-Collision System equipment and working principle, Automatic flight control, Autopilot concept and basic principles, Basic guidance methods , Kalman Filter (KS) concept, Linear (LKF), extended (EKF), non-intuitive (UKF) Kalman filters, Kalman filter based integrated navigation systems, Integration of Inertial Navigation System with GPS via complementary KS.
14) Introduction to advanced avionics, Basic Radio-Navigation systems, Radar altimeter and error model, Inertial navigation principles and Schuler adjustment, Working principle and error model of vertical navigation channel of Inertial Navigation System, Assisted inertia systems, Basic principles of GPS, Other Global Satellite Navigation Systems , Working Principle of Instrument Landing System, Ground Equipment of Instrument Landing System, Claret Red Equipment of Instrument Landing System, Traffic Warning and Anti-Collision System, Traffic Warning and Anti-Collision System equipment and working principle, Automatic flight control, Autopilot concept and basic principles, Basic guidance methods , Kalman Filter (KS) concept, Linear (LKF), extended (EKF), non-intuitive (UKF) Kalman filters, Kalman filter based integrated navigation systems, Integration of Inertial Navigation System with GPS via complementary KS.
15) Introduction to advanced avionics, Basic Radio-Navigation systems, Radar altimeter and error model, Inertial navigation principles and Schuler adjustment, Working principle and error model of vertical navigation channel of Inertial Navigation System, Assisted inertia systems, Basic principles of GPS, Other Global Satellite Navigation Systems , Working Principle of Instrument Landing System, Ground Equipment of Instrument Landing System, Claret Red Equipment of Instrument Landing System, Traffic Warning and Anti-Collision System, Traffic Warning and Anti-Collision System equipment and working principle, Automatic flight control, Autopilot concept and basic principles, Basic guidance methods , Kalman Filter (KS) concept, Linear (LKF), extended (EKF), non-intuitive (UKF) Kalman filters, Kalman filter based integrated navigation systems, Integration of Inertial Navigation System with GPS via complementary KS.
Recommended or Required Reading
Planned Learning Activities and Teaching Methods
Assessment Methods and Criteria
Contribution of Presentation/Seminar to Course Grade |
50% |
|---|---|
Contribution of Final Examination to Course Grade |
50% |
Total |
100% |
Language of Instruction
Turkish
Work Placement(s)
Not Required