Dr. Mark B. Tischler heads “Tischler Aeronautics,” with a focus on providing Engineering Support in Rotorcraft and Aircraft Flight Dynamics and Control. He retired in January 2021 as an Army Senior Technologist (ST) with the US Army Technology Development Directorate – Moffett Field, CA. His over 40-year career includes experience in aerospace industry and government. For 25 years, he led the US Army Flight Control Technology group that conducts handling qualities, flight dynamics and control research on a wide range of fixed-wing and rotary-wing aircraft and unmanned air vehicles (UAVs). Dr. Tischler headed the development of widely used tools for dynamics and control analysis and has been involved in numerous flight-test projects. He has published extensively in this field and is the author of Aircraft and Rotorcraft System Identification: Engineering Methods With Flight Test Examples, 2nd Edition (AIAA 2012), Practical Methods for Aircraft and Rotorcraft Flight Control Design: An Optimization-Based Approach (AIAA 2017), and Advances in Aircraft Flight Control (Ed) (AIAA and Taylor & Francis, 1996). Dr. Tischler has received many major awards for his work over the years. He has the rare distinction of twice receiving the Presidential Rank Award for Distinguished Senior Professional (2009, 2018), the highest recognition presented to public officials. Dr. Tischler received the Department of the Army Distinguished Civilian Service Medal in 2021, the highest award that may be bestowed by the Secretary of the Army for extraordinary contributions as a Senior Research Scientist.

Dr. Tom Berger leads the Flight Control Group at TDD where he manages U.S. Army research on aircraft and rotorcraft system identification, flight control, and handling qualities. Dr. Berger previously worked at Boeing (Huntington Beach, CA) on evaluating the handling qualities of the 777. His primary current research interest is in the emerging field of high-speed handling qualities and requirements for advanced rotorcraft configurations and system identification for over-actuated configurations. He is a coauthor of Practical Methods for Aircraft and Rotorcraft Flight Control Design: An Optimization Based Approach (AIAA, 2017). He received his BS in Aerospace Engineering from UCLA, his MS in Aeronautics and Astronautics from Stanford University, and his PhD in Aerospace Engineering from the Pennsylvania State University.

Classroom hours / CEUs: 20 classroom hours / 2.0 CEU/PDH

Course Delivery and Materials

• Zoom Meeting: The classes will be held via Zoom meetings. You can test your connection here: https://zoom.us/test
• Course Materials: All classes will be recorded and available for replay; lecture recordings will be available 1-2 business days after the live lecture occurs. Course notes and student software for hands-on exercises will be available for individual download.
• CIFER® Software: A 2-month Professional version of the CONDUIT® software will be provided for use. To receive the CONDUIT® software, students should register no later than 13 November with their institutional email address (e.g., company, research lab, academic) and not a personal email to ensure enough time for validation and installation. The software administrator will only distribute the CIFER® software to students' institutional email addresses for the students to install and validate. Please note that access to the software is at the discretion of the software distributor.
• eBook: All registrants will receive an eBook copy of the instructors’ AIAA textbook Practical Methods for Aircraft and Rotorcraft Flight Control Design: An Optimization Based Approach (Tischler et al., AIAA, 2017).
• No part of these materials may be reproduced, distributed, or transmitted, unless for course participants. All rights reserved.