STUDENT PAPER: What We Learned, When We Learned It, and How We Learned It: Takeaways from an Institution’s Aerospace Engineering Capstone Experience

Claire Schuessler; Samantha Carlowicz; Justin Fantroy; haochen rong; Srikanth Gururajan

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Conference: 2022 ASEE Annual Conference & Exposition
Location: Minneapolis, MN
Publication Date: August 23, 2022
Start Date: June 26, 2022
End Date: June 29, 2022
Conference Session: Aerospace Division Technical Session: Pedogogy and Training
Page Count: 19
DOI: 10.18260/1-2--41819
Permanent URL: https://peer.asee.org/41819
Download Count: 251

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Paper Authors

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Srikanth Gururajan Saint Louis University

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Dr. Srikanth Gururajan is an Associate Professor of Aerospace Engineering at the Parks College of Engineering, Aviation and Technology at Saint Louis University. Dr. Gururajan’s teaching interests are in the areas of Flight Dynamics and Controls and believes that student aerospace design competitions are ideal avenues for students to express their creativity while complementing the knowledge gained in the classroom with hands-on experience as well as promoting greater collaboration and learning across disciplines. Dr. Gururajan’s research interests are interdisciplinary and in the fields of fault tolerant flight control, real time systems, experimental flight testing using small UAS, and the design/development of natural language interaction with drones.

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Samantha Carlowicz

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Samantha Carlowicz is a Master of Science in Engineering student with an Aerospace and Mechanical Engineering concentration at Parks College of Engineering, Aviation, and Technology of Saint Louis University (SLU). She also holds a Bachelor of Science in Aerospace Engineering from SLU. She is currently a Graduate Research Assistant developing a guided risk assessment for CubeSat deployable systems. Her research interests include improving the reliability of space systems, design of complex mechanical systems, and how to improve mission success rates for novice spacecraft developers. She will begin her career as an Electronics Packaging Design and Analysis Engineer for Boeing Satellite Systems.

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Justin Fantroy Saint Louis University

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Justin Fantroy is a Master of Science in Engineering student studying Aerospace Engineering at Saint Louis University’s Parks College of Engineering, Aviation, and Technology. He also obtained his bachelor's degree in Aerospace Engineering from Saint Louis University (SLU), as well. Throughout his time at SLU, he was involved in SLURPL (SLU Rocket Propulsion Lab) and AAMS (African American Male Scholars Initiative). He also assisted with research in the Polysonic Wind Tunnel Lab, where he has gone on to conduct his master's Thesis research. Topics of research he has been involved in include shock-wave boundary layer interactions, fluid mechanics, statistical data reduction and laboratory measurement methods. His career will begin as a Turbine Component Design Engineer at Honeywell Aerospace in Phoenix, AZ.

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haochen rong Saint Louis University

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Haochen Rong is an international student and a Master of Science in Engineering studying Aerospace and Mechanical Engineering at Saint Louis University’s Parks College of Engineering, Aviation, and Technology. He also obtained a BS in Aerospace Engineering from SLU. His research interests include integrated computational designs and optimization through simulation.

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Claire Schuessler Saint Louis University

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Claire Schuessler is a Master of Science in Engineering student with an Aerospace and Mechanical Engineering concentration at Saint Louis University's Parks College of Engineering, Aviation, and Technology. She also has a BS in Aerospace Engineering with a minor in Engineering Mathematics from SLU, and she is a member of SWE and AIAA. She will be beginning her career as a Systems Engineer for Raytheon Intelligence & Space.

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Abstract

Aerospace engineering requires a broad foundation of skills students are to develop throughout their educational careers. Beyond the physics and mathematics fundamentals, it can be beneficial for students to explore more specialized topics or platforms that interest them. For some students at Saint Louis University, this specialization can appear as late as their final capstone projects where they are to design (and in some cases, build) a system such as an aircraft, rocket, or spacecraft. This paper offers a reflection from alumni of an aerospace engineering undergraduate program on the impacts of the required course track (fundamentals) for their degree on the success of their final capstone projects (specialization). Within some engineering programs, a disconnect can occur when the specialized interests of the student do not align well with the required or offered course material. This paper identifies some areas where students had gaps in their knowledge and experiences, as well as what they had to do to fill in those gaps. The methods used to gather the reflections included a survey of alumni as well as expanded case studies provided by the authors. The findings suggest that required course-tracks are lacking hands-on engineering experiences such as learning about manufacturing or the use of specialized software programs. Further, some course-tracks focus on particular topics in aerospace engineering and students interested in other areas are left to fill their knowledge gaps on their own. Though the primary course-tracks for engineering programs may be lacking in structured routes for specialization, capstone projects are seen to provide students with the opportunity to augment coursework knowledge with specialized skills and to explore different aspects of the design process before graduating. The findings suggest this is done by applying skills learned from extracurriculars or internship experience. In addition, input from mentors—either those who work in industry or professors—can also prove to be a valuable asset. The capstone also affords students the opportunity to cooperate and communicate with other engineers—another aspect of engineering not taught explicitly—to achieve more successful results.

Citation
Format

Gururajan, S., & Carlowicz, S., & Fantroy, J., & rong, H., & Schuessler, C. (2022, August), STUDENT PAPER: What We Learned, When We Learned It, and How We Learned It: Takeaways from an Institution’s Aerospace Engineering Capstone Experience Paper presented at 2022 ASEE Annual Conference & Exposition, Minneapolis, MN. 10.18260/1-2--41819

TY  - CPAPER
AB  - Aerospace engineering requires a broad foundation of skills students are to develop throughout their educational careers. Beyond the physics and mathematics fundamentals, it can be beneficial for students to explore more specialized topics or platforms that interest them. For some students at Saint Louis University, this specialization can appear as late as their final capstone projects where they are to design (and in some cases, build) a system such as an aircraft, rocket, or spacecraft. This paper offers a reflection from alumni of an aerospace engineering undergraduate program on the impacts of the required course track (fundamentals) for their degree on the success of their final capstone projects (specialization). Within some engineering programs, a disconnect can occur when the specialized interests of the student do not align well with the required or offered course material. This paper identifies some areas where students had gaps in their knowledge and experiences, as well as what they had to do to fill in those gaps. The methods used to gather the reflections included a survey of alumni as well as expanded case studies provided by the authors. The findings suggest that required course-tracks are lacking hands-on engineering experiences such as learning about manufacturing or the use of specialized software programs. Further, some course-tracks focus on particular topics in aerospace engineering and students interested in other areas are left to fill their knowledge gaps on their own. Though the primary course-tracks for engineering programs may be lacking in structured routes for specialization, capstone projects are seen to provide students with the opportunity to augment coursework knowledge with specialized skills and to explore different aspects of the design process before graduating. The findings suggest this is done by applying skills learned from extracurriculars or internship experience. In addition, input from mentors—either those who work in industry or professors—can also prove to be a valuable asset. The capstone also affords students the opportunity to cooperate and communicate with other engineers—another aspect of engineering not taught explicitly—to achieve more successful results.
AU  - Srikanth Gururajan
AU  - Samantha Carlowicz
AU  - Justin Fantroy
AU  - haochen rong
AU  - Claire Schuessler
CY  - Minneapolis, MN
DA  - 2022/08/23
PB  - ASEE Conferences
TI  - STUDENT PAPER: What We Learned, When We Learned It, and How We Learned It: Takeaways from an Institution’s Aerospace Engineering Capstone Experience
UR  - https://peer.asee.org/41819
DO  - 10.18260/1-2--41819
ER  -