Sistema de Confirmação de Refeição do Restaurante Acadêmico no IFCE - Campus Maracanaú
Resumo
Este trabalho mostra o desenvolvimento de uma ferramenta de apoio à confirmação de refeição para o restaurante acadêmico (RA) do Instituto Federal do Ceará (IFCE) - campus Maracanaú. A ferramenta é composta por um aplicativo móvel para cadastrar novos usuários e um Raspberry Pi responsável por gerenciar a leitura dos cartões cadastrados. Além do fator comodidade, este projeto também teve como objetivo maximizar o número de confirmações de refeição para que o RA pudesse mensurar a quantidade de comida a ser preparada no dia, minimizando assim o desperdı́cio de alimentos. Os resultados confirmam que o sistema funciona de forma eficiente, propiciando confirmações de refeição aos alunos e enviando os detalhes por email em tempo satisfatório.
Referências
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Dave, E. et al. (2011). How the next evolution of the internet is changing everything. The Internet of Things.
de Souza, D. J. (2005). Desbravando o PIC: Ampliado e atualizado para PIC16F628A. Erica.
Ezechina, M., Okwara, K., and Ugboaja, C. (2015). The internet of things (iot): a scalable approach to connecting everything. The International Journal of Engineering and Science, 4(1):09–12.
Floarea, A.-D. and Sgârciu, V. (2016). Smart refrigerator: A next generation refrigerator connected to the iot. In 2016 8th International Conference on Electronics, Computers and Artificial Intelligence (ECAI), pages 1–6. IEEE.
Kamelia, L., Noorhassan, S. A., Sanjaya, M., and Mulyana, W. E. (2014). Door-automation system using bluetooth-based android for mobile phone. ARPN Journal of Engineering and Applied Sciences, 9(10):1759–1762.
Mowad, M. A. E.-L., Fathy, A., and Hafez, A. (2014). Smart home automated control system using android application and microcontroller. International Journal of Scientific & Engineering Research, 5(5):935–939.
Nambi, S., Nyalamadugu, S., Wentworth, S. M., and Chin, B. (2003). Radio frequency identification sensors. PhD thesis, Auburn University.
NETO, B., MONTEIRO, P., and QUEIROGA, S. (2012). Aplicabilidade dos microcontroladores em inovações tecnológicas. Artigo cientı́fico.
Neves, L. A. P. et al. (2019). Smart door: gerenciamento e acesso remoto de portas.
Palani, S. (2018). “Who’s There?”: Designing Sensor-Aided Wearable Assistive Technology for the Visually-Impaired. PhD thesis.
Sangwan, R. S., Qiu, R. G., and Jessen, D. (2005). Using rfid tags for tracking patients, charts and medical equipment within an integrated health delivery network. In Proceedings. 2005 IEEE Networking, Sensing and Control, 2005., pages 1070–1074. IEEE.
Taştan, M. and Gökozan, H. (2018). An internet of things based air conditioning and lighting control system for smart home. American Scientific Research Journal for Engineering, Technology, and Sciences (ASRJETS), 50(1):181–189.
Chen, S. C. and Thomas, V. (2001). Optimization of inductive rfid technology. In Proceedings of the 2001 IEEE International Symposium on Electronics and the Environment. 2001 IEEE ISEE (Cat. No. 01CH37190), pages 82–87. IEEE.
Chorost, M. (2008). The networked pill. In MIT Technology Review.
Dave, E. et al. (2011). How the next evolution of the internet is changing everything. The Internet of Things.
de Souza, D. J. (2005). Desbravando o PIC: Ampliado e atualizado para PIC16F628A. Erica.
Ezechina, M., Okwara, K., and Ugboaja, C. (2015). The internet of things (iot): a scalable approach to connecting everything. The International Journal of Engineering and Science, 4(1):09–12.
Floarea, A.-D. and Sgârciu, V. (2016). Smart refrigerator: A next generation refrigerator connected to the iot. In 2016 8th International Conference on Electronics, Computers and Artificial Intelligence (ECAI), pages 1–6. IEEE.
Kamelia, L., Noorhassan, S. A., Sanjaya, M., and Mulyana, W. E. (2014). Door-automation system using bluetooth-based android for mobile phone. ARPN Journal of Engineering and Applied Sciences, 9(10):1759–1762.
Mowad, M. A. E.-L., Fathy, A., and Hafez, A. (2014). Smart home automated control system using android application and microcontroller. International Journal of Scientific & Engineering Research, 5(5):935–939.
Nambi, S., Nyalamadugu, S., Wentworth, S. M., and Chin, B. (2003). Radio frequency identification sensors. PhD thesis, Auburn University.
NETO, B., MONTEIRO, P., and QUEIROGA, S. (2012). Aplicabilidade dos microcontroladores em inovações tecnológicas. Artigo cientı́fico.
Neves, L. A. P. et al. (2019). Smart door: gerenciamento e acesso remoto de portas.
Palani, S. (2018). “Who’s There?”: Designing Sensor-Aided Wearable Assistive Technology for the Visually-Impaired. PhD thesis.
Sangwan, R. S., Qiu, R. G., and Jessen, D. (2005). Using rfid tags for tracking patients, charts and medical equipment within an integrated health delivery network. In Proceedings. 2005 IEEE Networking, Sensing and Control, 2005., pages 1070–1074. IEEE.
Taştan, M. and Gökozan, H. (2018). An internet of things based air conditioning and lighting control system for smart home. American Scientific Research Journal for Engineering, Technology, and Sciences (ASRJETS), 50(1):181–189.
Publicado
2019-12-26
Como Citar
M. JÚNIOR, Jose N. et al.
Sistema de Confirmação de Refeição do Restaurante Acadêmico no IFCE - Campus Maracanaú.
Anais da Escola Regional de Computação Aplicada à Saúde (ERCAS), [S.l.], p. 103-108, dez. 2019.
ISSN 0000-0000.
Disponível em: <https://sol.sbc.org.br/index.php/ercas/article/view/9043>. Acesso em: 16 maio 2024.
Seção
Artigos
