Training & Courses

This course provides an overview of airplane static and dynamic stability and control theory and applications, as well as classical control theory and applications to airplane control systems. An overview of flying qualities and regulations is included.

 

Highlights:

 

• General airplane equations of motion
• Review of basic aerodynamic concepts
• Longitudinal aerodynamic forces and moments
• Lateral-directional aerodynamic forces and moments
• Thrust forces and moments
• The concept of static stability
• Applications of the steady state airplane equations of motion
• Effects of the flight control system; control forces
• Applications of the perturbed state equations of motion
• Dynamic stability: short period, phugoid, Dutch Roll, spiral and roll mode
• Review of flying qualities criteria
• Introduction to human pilot transfer functions
• Synthesis of stability augmentation systems

This Training is a great opportunity for students to get hands-on experience with satellites and to apply theoretical knowledge obtained from classroom lectures. Participants will have the opportunity to perform experiments on Educational Satellites (ESAT) and learn how subsystems work and interact with each other

They will also discover how to conduct Assembly, Integration and Verification (AIV), and how to handle tests using real hardware, During the Training Week, the following topics will be covered.

Mission Design

As CubeSat missions become more complex, it is critical to have a solid plan for your mission. We provide consulting to help you conceptualize mission requirements and strategies for your mission including:

• Orbit Trajectory Optimization
• Communication Budget Requirements
• Payload Data Budget Requirements
• Power Budget Requirements

Design Level

It can be a challenge to design and develop a reliable CubeSat system for your mission. To meet your mission requirements we provide design & analysis consulting for:

• Spacecraft structure
• Arrangement of Internal Subsystems
• Communications
• Power Generation & Consumption
• Thermal Control

manufacturing courses will introduce you to product design, the manufacturing process, and the product development process, and show you how to convert raw materials, components or parts into high-quality finished goods. These courses are ideal for employees or professionals who want to learn more about product design and manufacturing processes, and for learners who would like to pursue a manufacturing or product design career.

Automotive Engineering is a subdiscipline in the field of Engineering & Technology which focuses on designing new vehicles or finding ways to improve the current machine technology and systems. Automotive Engineering is an interdisciplinary subject which intersects with knowledge from other fields, such as Electrical Engineering, Mechatronics, and Materials Science.

The future definitely looks bright for the automotive industry, as engineers continue to develop the next generation of hybrid cars while standing at the forefront of innovations like flying or self-driving vehicles.

Automotive Engineering courses combine tools and methods used in Mechanical, Electrical, Electronic, Safety and Software Engineering. These instruments allow engineers to integrate functionality, safety, and aesthetic in order to create perfect driving machines. In the Automotive Engineering field, you can specialize in design, research and development, testing and quality control, or the production of vehicles and automotive components.