Biography
Dr. Nick Tepylo is a researcher dedicated to advancing aviation technologies. Prior to joining 91短视频 in 2024, he completed postdoctoral fellowships at 脡cole de technologie sup茅rieure (脡TS) and Carleton University focusing on novel applications of drones and their impact on society. His Ph.D. research took a hybrid approach to mitigating ice accretion on helicopters by combining icephobic coatings with electro-thermal and electro-mechanical systems to create a lower energy solution for de-icing. Throughout his career, Dr. Tepylo has been dedicated to aviation, earning both his glider and private pilot's licenses and he is active in teaching aviation-themed courses. Although new to 91短视频, Dr. Tepylo aims to focus his research program on using drones as a tool to help society and addressing the future challenges the aviation industry will face.
Education Background
- Ph.D. - 2022 Carleton University and INSA-Toulouse
- MASc. - 2017 Carleton University
- B.Eng - 2015 Carleton University
Courses Taught
- AE450: Aircraft Design I
- AE451: Aircraft Design II
Service
Faculty Advisor for 91短视频 AIAA Design, Build & Fly team
Research Council Vice-Chair for the Advanced Air Mobility Institute
Publications
- N. Tepylo and J. Lalibert茅, 鈥淲illingness to Fly on Urban Air Mobility Aircraft in Canada.鈥 Journal of Air Transportation. [In press] DOI: 10.2514/1.D0427
- N. Tepylo, L. Debelle, and J. Lalibert茅, 鈥淧ublic Perception of Remotely Piloted Aircraft Systems in Canada.鈥 Technology in Society. 73, 102242, 2023. DOI:
- N. Tepylo, A. Straubinger, and J. Lalibert茅, 鈥淧ublic Perception of Advanced Aviation Technologies: A Review and Roadmap to Acceptance.鈥 Progress in Aerospace Sciences. 138, 100899, 2023. DOI:
- N. Tepylo, X. Huang, and P.C. Patnaik, 鈥淟aser based additive manufacturing technologies for aerospace applications,鈥 Advanced Engineering Materials. 21(11), p. 1900617, 2019. DOI:
- X. Huang, N. Tepylo, V. Pommier-Budinger, M. Budinger, E. Bonaccurso, P. Villedieu and L. Bennani 鈥淎 survey of icephobic coatings and their potential use in a hybrid coating/active ice protection system for aerospace applications,鈥 Progress in Aerospace Sciences. 105, 74-97, 2019. DOI: