Page 24 - REC :: M.E. Avionics Curriculum and Syllabus - R2019
P. 24
Department of Aeronautical Engineering, REC
Subject Code Subject Name (Laboratory Course) Category L T P C
AV19211 FLIGHT CONTROL SYSTEMS LABORATORY PC 0 0 4 2
Objectives:
⚫ To introduce the advanced concepts of flight control and required mathematical knowledge.
To provide exposure on Root locus, analysis of stability through Root locus plots, Bode plot, Lead Lag
⚫
compensator.
⚫ To provide exposure on PID controller tuning, controller and autopilot design.
List of Experiments
1 Stability analysis using Root Locus plot.
2 Stability analysis using Bode Plot technique and Nyquist plot.
3 Design of PID controller.
4 Development of Equations of Motion
5 Design of Displacement longitudinal autopilot
6 Design of Automatic Glide Slope Control System and Flare Control System.
7 Design of Automatic Lateral beam guidance system
8 Design of Van-Guard Missile system
9 Design of Kalman filter.
10 Implementation of Hardware-In-Loop Simulation (HILS) for fixed wing aircraft.
Total Contact Hours : 60
Course Outcomes:
Upon completion of this course, students will explain the advanced concepts of Flight Control to the engineers
⚫
and provide the necessary mathematical knowledge that are needed in modelling the control processes.
The students will have an exposure on various topics such as Root locus, analysis of stability through Root locus
⚫ plots, Bode plot, Lead Lag compensator, PID controller and tuning, controller and autopilot design and will be able
to deploy these skills effectively in the solution of problems in avionics engineering
Curriculum and Syllabus | M.E. Avionics | R2019 Page 24
