Conceptual Design of Unmanned Aircraft Systems

Overland Park, Kansas (Edwards Campus BEST Conference Center)

April 25 – 27, 2022

Monday – Wednesday  8 a.m. – 4 p.m.

Instructor: Dr. Willem Anemaat
Outline, Fee & Registration – HERE

Course Description

This course provides a conceptual approach to overall design of Unmanned Aircraft Systems (UAS) including concepts of operations, communications, payloads, control stations, air vehicles and support.  It also covers requirements and architecture development, initial sizing and conceptual -level parametric and spreadsheet assessment of major system elements.

Who should attend?

This course is designed primarily for practicing conceptual-level design engineers, systems engineers, technologists, researchers, educators and engineering managers. For maximum course benefit, students should have some knowledge of basic aerodynamics and conceptual aircraft design, although it is not mandatory. A basic knowledge of spreadsheet analysis methods is assumed.

Highlights:

  • Introduction to Unmanned Aircraft Systems (UAS), including conceptual design issues and operating environments
  • Control station, communication and payload considerations and sizing
  • Life cycle cost estimation
  • Air vehicle parametric design and propulsion
  • Conceptual-level aerodynamics
  • Standard atmosphere models
  • Conceptual-level mass estimation
  • Parametric geometry
  • Air vehicle performance
  • Mission assessment
  • Methodology and correlation
  • Air vehicle optimization
  • Overall system optimization
  • Reliability, maintainability and support

Comments & Reviews

  • I took this course because it was a systems-oriented course, and I was also interested in UAS as a hobby . I was pleasantly surprised to find how everything covered in class closely related to job duties, and how applicable it would all be to designing a full-scale aircraft . I came away from the course feeling that I have a good grasp of all the concepts required in putting an UAS together, and where to concentrate efforts to increase the fidelity of the design.” – Xavier Dulin, Systems Engineer, Sierra Nevada Corporation

Airplane Flight Dynamics

San Diego, California

September 19 – 23, 2022

Monday – Friday  8 a.m. – 4 p.m.

Instructor: Dr. Willem Anemaat
Outline, Fee & Registration – HERE
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Course Description

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.

Who should attend?

Aeronautical engineers, mechanical engineers, electrical engineers needing to learn more about flight dynamics, along with pilots with some engineering background, government research laboratory personnel, engineering managers and educators.

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

Comments & Reviews

  • “I felt the course will be immediately applicable to my current position and that the materials and knowledge from the class will continue to be useful in the future. The instructor was excellent and had a great command of the course material from both a theoretical and practical point of view.”
  • “Excellent coverage of theory, balanced with practical application. Good use of in-class assignments to ensure between of material presented in class. This class was an excellent review and served to reinforce my knowledge.” – Assistant Professor, ME – Embry-Riddle Aeronautical University
  • “It helped me to recharge my knowledge and understanding about Flight Dynamics, because I have background in aeronautical engineering. It will also help me with my works which are related to stability topics.”
  • “Dr. Anemaat presented the equations of stability and control in a way that was very easy to connect with real world application.”
  • “This course is a terrific overview of aircraft aerodynamics, flight mechanics and stability and control, taught from balanced academic and industry standpoints. The covered material includes derivations of (simplified” equations of motion, static stability, dynamic stability, and brief introduction to flying qualities and control law design.”
  • “Excellent Course!!! Thanks Prof. Anemaat for explanations and answering my questions. Excellent books and classroom examples.” – Dr. Felix Martinez, PhD – Universidad Pan Americana
  • “The workshop exercise was a useful application of the “good math” theory that was presented in class.