Social Electrical Engineering: A Pathway for Better Undergraduate Education
DOI:
https://doi.org/10.5216/ijaeedu.v5i1.48146Palavras-chave:
collaborative education, electrical engineering, extension projects, visually impairedResumo
As engineering skills becomes a commodity, electrical engineers’ programs are urged to adapt their pedagogical strategies do better prepared their graduates. The 21st century engineers are expected to have a strong technical background while being capable to work with people with different kinds of intellectual and social capitals, and to have a high level of cognitive flexibility. This article reports on the application of an information appropriation method, adopted by the Department of Electrical Engineering at PUC-Campinas, where activities on extension projects are simultaneously conducted along with the regularly schedule classes. The study case is related to the coplanning and cocreation of a technological white cane (proof of connect) between electrical engineering students, social technicians and the visually impaired. In the present case, the technicians were led to reinterpret, adapt and reinvent technology while contributing to the design and build of a low cost adaptive electronic sensing aid attachable to a white cane. The collaborative method, applied during conversation rounds, is based on a virtuous cyclic process which includes steps like information capture, validation, guidance and feedback. The engineering students, on the other hand, have the opportunity to develop their communication, analysis and interpretation skills in a way not available in the classroom. They also experience solving conflict situations and find creative uses and applications for they knowledge not otherwise foreseen. The participating students transformed information into knowledge through a dialogical experience with people having a contrasting technological background to its own. Through this experience the engineering graduates emerged with a greater sense of responsibility with the society and a better understanding of what means to be an engineer. Participation in the Extension Project also brought up several opportunities of professional recognition by the technicians and the visual impaired themselves, which stimulated the students do achieve better performance in the course.Referências
Rose Luckin, Ed Baines, Mutlu Cukurova and Wayne Holmes with Michael Mann, “Solved! Making the case for collaborative problem-solving”, NESTA, National Endowment for Science, Technology and the Arts, march 2017, available at: http://www.nesta.org.uk/publications/solved-making-case-collaborative-problem-solving.
Lueny Morell, “Engineering Education in the 21st Century: Roles, Opportunities and Challenges”, 4th NEA ICETE Conference Proceedings, Taichung, Taiwan, October 2010.
Khairiyah Mohd-Yusof, Syed Ahmad Helmi, Fatin Aliah Phang and Shahrin Mohammad, “Future Directions in Engineering Education: Educating Engineers of the 21st Century”, ASEAN Journal of Engineering Education, 2(1), pp 8-13, 2015.
Dan Craddock, “Preparing Students for de 21st Century Challenges”, jun 2016, available at https://www.ewb-uk.org/complexproblemsineducation/
World Economic Forum. 2016. Global Challenge Insight Report: The future of jobs, employment, skills and workforce strategy for the fourth industrial revolution. [online]. Geneva: World Economic Forum. Available at: http://www3.weforum.org/docs/WEF_Future_of_Jobs.pdf
Engineering Education: Transformation and Innovation, D. Beanland & R. Hadgraft, UNESCO Report, 2013.
‘Draft Collaborative Problem Solving Framework.’ Paris: OECD. Retrieved from:
http://www.oecd.org/pisa/pisaproducts/DraftPISA2015 CollaborativeProblemSolvingFramework.pdf
Anderson G.Domingues and Amilton C. Lamas, “Dispositivo Eletrônico de Mapeamento – uso em Bengala Branca”, to be presented at 45o Congresso Brasileiro de Educação em Engenharia – COBENGE 2017, September 2017.
Amilton C. Lamas, “Método Cíclico de Apropriação de Conhecimento – Uma aplicação na Comunidade de Deficientes Visuais’, to be presented at II Congresso Internacional de Criatividade e Inovação, June 2017
Downloads
Publicado
Edição
Seção
Licença
Ao submeter eletronicamente um artigo na Revista Eletrônica Engenharia Viva, o responsável pela submissão:
a) Declara que o documento em questão é um trabalho original, e que detém prerrogativa de conceder os direitos contidos nesta licença. Declara também que a entrega do documento não infringe, tanto quanto lhe é possível saber, os direitos de qualquer outra pessoa ou entidade.
b) Se o documento em questão contém material do qual não detém os direitos autorais, declara ter obtido autorização do detentor dos direitos autorais para conceder à Universidade Federal de Goiás os direitos requeridos por esta licença, e que esse material cujos direitos são de terceiros está claramente identificado e reconhecido no texto ou conteúdo do documento em questão.
c) Declara ainda que qualquer pessoa nomeada como autor ou co-autor do documento tem consciência do fato e concorda em ser assim nomeado.
Termo de Autorização
Na qualidade de responsável pela submissão do documento, autorizo a Escola de Engenharia Elétrica, Mecânica e de Computação da Universidade Federal de Goiás (EMC/UFG) a disponibilizar a obra, gratuitamente, por meio do Sistema Eletrônico de Editoração de Revistas da UFG (SEER/UFG) ou na forma impressa, sem ressarcimento dos direitos autorais, de acordo com a Lei nº 9610/98. Fica permitido, a leitura, a impressão e/ou download, a título de divulgação da produção científica brasileira. Qualquer uso da obra que não o autorizado sob esta licença ou pela legislação autoral é proibido.
