A DESIGN-IMPLEMENT EXPERIENCE WITHIN COMPUTER VISION

A DESIGN-IMPLEMENT EXPERIENCE WITHIN COMPUTER VISION

A. Díaz-Salazar, S. Gunnarsson (2023).  A DESIGN-IMPLEMENT EXPERIENCE WITHIN COMPUTER VISION. 251-257.

A design-implement experience in computer vision, which is part of the Bachelor’s program in Artificial Intelligence at the Federal University of Goiás, Brazil, is presented. The program runs over four years, and the design-implement experience is part of a course module in computer vision in the third year. The first years of the program contains mandatory course modules in mathematics, computer science and entrepreneurship, and the module in computer vision is the first module where students were introduced to work in projects in the CDIO form. As a result, some of the students which had previous knowledge about project management and development performed well and achieved solid results. Some other students which underestimated the project scope had a less solid performance and achieved weaker results. However, the final overall feedback from the students was positive and lessons learned were appointed for future improvements.

Authors (New): 
Aldo André Díaz-Salazar
Svante Gunnarsson
Pages: 
251-257
Affiliations: 
Linköping University, Linköping, Sweden
Federal University of Goiás, Goiânia, Brazil
Keywords: 
Design-implement experience
computer vision
Project-Based Learning
CDIO optional standard 2
CDIO standard 4
CDIO Standard 5
CDIO Standard 11
Year: 
2023
Reference: 
BIA – Bacharelado em Inteligência Artificial (2023, April 15). Retrieved from https://inteligenciaartificial.inf.ufg.br/: 
Bermejo S., Garcia-González M. A., Bragós R., Montesinos N., Ballarin M. (2016). Steps for iterating design-implement experiences into a CDIO course. 12th International CDIO Conference, Turku, Finland. : 
CDIO Initiative. (2023, March 31). Retrieved from http://www.cdio.org/: 
CDIO Syllabus. (2023, March 31). Retrieved from http://www.cdio.org/: 
CDIO Standards. (2023, March 31). Retrieved from http://www.cdio.org/: 
CEIA – Centro de Excelência em Inteligência Artificial (2023, April 15). Retrieved from https://www.ceia.ufg.br/: 
Crawley E. (2001). The CDIO Syllabus. A statement of goals for undergraduate engineering education. MIT Report.: 
Images and Graphics Project Course CDIO (2023, March 31) Retrieved from TSBB11 Images and Graphics, Project Course CDIO (liu.se): 
Lourenço Jr J., Garcia Veraldo Jr L. (2015). CDIO approach: the new engineering degree programs in a Brazilian HEI. The PBL Project Based Learning experience. 11th International CDIO Conference, Chengdu, China.: 
Neto R., Fiuza G., Gonzalez V., Rezende A. (2019). CDIO Progress: Mechanical engineering of the Brazilian military institute. 15th International CDIO Conference, Aarhus, Denmark.: 
Passos A., de Aruda H., Vasconcelos M., Ferrari F. (2019). Design-implement courses to support change in engineering education. 15th International CDIO Conference, Aarhus, Denmark.: 
Pequi Mecânico (2023, April 13). O Núcleo de Robótica da Universidade Federal de Goiás. Retrieved from https://www.pequimecanico.com.br/: 
Rezende A., Neto R., Rodrigues G. (2022). CDIO applied in the Brazilian engineering education law implementation. 18th International CDIO Conference, Reykjavik, Iceland. : 
Svensson T., & Gunnarsson S. (2012). A design-build-test course in electronics based on the CDIO framework for engineering education. International Journal of Electrical Engineering Education. Vol 49. : 
Van Torre P., Verhaevert J. (2017). A design-implement capstone project in electronics engineering. 13th International CDIO Conference, Calgary, Canada. : 
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