Conference Session

Integrative Projects in Aerospace Engineering

Collection

2006 Annual Conference & Exposition

Authors

Joel Weinstein, Northeastern University; Randy August, Northeastern University; Len Dow, Northeastern University; Jerome Tapper, Northeastern University; Francis Di Bella, Northeastern University

Tagged Divisions

Aerospace

2006-345: A DESCRIPTION OF AN INTEGRATED CAPSTONE PROJECT TEAMWITH ELECTRICAL, MECHANICAL AND COMPUTER ENGINEERINGTECHNOLOGY STUDENTSFrancis Di Bella, Northeastern UniversityJerome Tapper, Northeastern UniversityJoel Weinstein, Northeastern University Prof. Weinstein is the Program coordinator for the Computer engineering technology unit at Northeastern University.Len Dowd, Northeastern University Prof.Dowd is the Electrical Engineering Technology program coordinator at Northeastern University and specializes in electrical power engineering. He has over 30 years experience with the Boston Edison company before joining Northeastern University in 1995.Randy August, Northeastern University Randy

Conference Session

Integrative Projects in Aerospace Engineering

Collection

2006 Annual Conference & Exposition

Authors

Sanjay Jayaram, St. Louis University

Tagged Divisions

Aerospace

2006-1989: BILLIKENSAT 1 – SAINT LOUIS UNIVERSITY’S FIRST CUBESATDESIGNSanjay Jayaram, St. Louis University Dr. Sanjay Jayaram is an Assistant Professor in the Department of Aerospace and Mechanical Engineering Department at Saint Louis University. His research interests include Autonomous Control System Design for ground and planetary vehicles, Robust and Adaptive Control. Page 11.274.1© American Society for Engineering Education, 2006 BILLIKENSAT 1 – Saint Louis University’s First Cubesat DesignAbstract:Billikensat 1 is the first multi-disciplinary Senior Capstone Spacecraft Design project at ParksCollege of

Conference Session

Approaches to Emerging Topics

Collection

2006 Annual Conference & Exposition

Authors

Ron Madler, Embry-Riddle Aeronautical University-Prescott; Phillip Anz-Meador, Embry-Riddle Aeronautical University-Prescott; Karl Siebold, Embry-Riddle Aeronautical University-Prescott

Tagged Divisions

Aerospace

or full-time undergraduate students in Prescott. The topic of spacedebris was introduced in these classes and it was found that this field can serve as a veryelaborate example pool for applied orbital mechanics, mission planning, spacecraft design (busand payload), remote sensing and space surveillance, and classes in a traditional liberal artscurriculum such as history, policy, and law.Projects like the analysis of satellite fragmentations, interactive web based flux directionalitycalculations, and the long term effects of perturbations on a satellite’s orbit are a few exampleson how this important topic can be included in a university curriculum. Undergraduate studentshave been integrated into research projects in addition to the classes

Conference Session

Rethinking Aerospace Curricula and Learning

Collection

2006 Annual Conference & Exposition

Authors

Narayanan Komerath, Georgia Institute of Technology

Tagged Divisions

Aerospace

to real flows and structures.Digital signal processing also became accessible on PCs, transferring experimental techniquesfrom the research laboratories into the undergraduate curriculum. These capabilities enabledproject-oriented courses where students learned theory and applied it immediately to projects.We discovered that students could handle courses where several topics were learned in parallel,and where they created the “manuals” for their experiments. Project teams could interact throughthe computer. This was a far cry from the traditional model of undergraduates just beingobservers, or at best just operators following precise instructions.The capabilities demonstrated by 1993 were used to revamp the junior-level Low SpeedAerodynamics

Conference Session

Rethinking Aerospace Curricula and Learning

Collection

2006 Annual Conference & Exposition

Authors

Thomas Hannigan, Mississippi State University; Carrie Olsen, Mississippi State University; David Bridges, Mississippi State University; Keith Koenig, Mississippi State University

Tagged Divisions

Aerospace

are developed. The curriculumstresses analytical and communication skills, with particular emphasis placed on engineeringdesign throughout the curriculum. A capstone design experience in the senior year provides theopportunity to integrate design, analytical, and problem solving skills along with communicationskills in a team environment which emulates aerospace engineering practice.The mission1 of this Aerospace Engineering Department is accomplished by the following Page 11.1118.2learning objectives:1. Provide a strong foundation in the fundamentals of mathematics, basic physical sciences, andengineering sciences.2. Develop analytical and