Dr. Harasani consulting office also offers short courses in the area of Fleet Planning, and Aircraft Design, UAV design, Rocket design, and Systems.
Selected short courses:

[I] Airline Fleet Planning
1. Introduction to airline fleet planning.
2. Flight operations, Ground operations.
3. Economic criteria, Operating cost,
4. The process of aircraft selection, which involves traffic data analysis, and identify suitable aircraft candidate.
5. The final stage of aircraft selection, which involves Aircraft performance.

[II] Hydraulic Systems
1. Civil Aircraft/FAR-25 Flight Controls Design Considerations (primary and secondary flight control systems)
2. Civil Aircraft/FAR-25 Undercarriage Design Considerations
3. Civil/FAR-25 Hydraulic and Flight Control Systems Layouts (primary and backup hydraulic systems)
4. Operational Considerations

[III] Aircraft Design, and UAV Design
1. Determination of weights, and derivation sensitivities
2. Derivation and discussion of performance constraints
3. Selection of the overall configuration
4. Detailed discussion of why’s and how’s of the design
5. Discussion of the aircraft systems
6. Airplane cost analysis

[IV] Aviation Regulation
1. Reliability and maintenance programs
2. Aircraft maintenance, modifications and repairs cost estimation and analysis
3. Finance for aviation engineers
4. Aircraft modifications and repair design and certification

[V] Missile Design
A. Missile Body Aerodynamics
Introduction Estimation methods for subsonic and supersonic normal force and center of pressure on inclines cones and ogive cylinders
RAeS Method for load prediction at supersonic speeds
Pilon Method for load prediction
Comparison with Experiment Brebner Method at Subsonic Speeds of Missiles
Effect of Boat Tail
EEffect of Nose blunting

B. Aerodynamic Contribution from Missile Wings
Introduction br /> Basic Concepts and theoretical considerations
Normal Force and Pitching Moment Equations
Methods to predict linear force and pitching moment’s terms
Method of Pitts, Neilson and Kattari
Method to predict non-linear normal force and pitching moment terms
Discussion of following Techniques:
Hindesand Tiemen method
Ortell Method
Polhamus Method
Collingbourne Method
Effect of thickness
Comparison of experimental data with prediction
Loading Distributions
Comparison of data from CFD and other numerical codes