Uma interface em realidade aumentada usando internet das coisas (IoT) para o monitoramento de docas
DOI:
https://doi.org/10.5965/2316796313262024037-068Keywords:
Interface Design, Augmented Reality, UsabilityAbstract
This article aims to present a digital interface in Augmented Reality in an IoT (Internet of Things) system and its usability analysis based on user tests. To carry out this research, the Double Diamond method was applied to understand the requirements of personas and promote innovation in the construction of the interface for the industrial sector. The results confirm that the developed interface: (1) has easy user adaptation to manipulate virtual elements inserted in the physical world; (2) it promotes more agility and efficiency in the management, training and mentoring process. In this way, it is considered appropriate for implementation in a factory.
Downloads
References
ALVES, J. M. O sistema Just in Time reduz os custos do processo produtivo. Anais Do Congresso Brasileiro de Custos-ABC, 1995.
ALONSO, M., GIL, A., MORENO, A., GARRIDO, J., GUTIERREZ-BALLESTEROS, E., & CAÑETE-CARMONA, E. (2020). An IoT Based Mobile Augmented Reality Application for Energy Visualization in Buildings Environments. APPLIED SCIENCES-BASEL, 1–15.
AULENTA, F., & LENS, P. Recent advances in Augmented Reality. New Biotechnology, 29(1), 1, 2011.
AZUMA, R. Tracking Requirements for Augmented Reality. Communications of the ACM, 36(7), 50–51, 1993.
AZUMA, R. T. A Survey of Augmented Reality. Presence, 6(3), 355–385, 1997.
BARROSO, A., HEIMBECKER, C., IONE, M., & DOLZANE, F. Ergonomia de software na interface de projetos educativos a aplicação de critérios de usabilidade em um ambiente virtual de aprendizagem destinado à formação de professores. Brazilian Journal of Development, Curitiba, 7(8), 76697-76718, 2021.
BILLINGHURST, M., CLARK, A., & LEE, G. A survey of augmented reality. Foundations and Trends in Human-Computer Interaction, 8(2–3), 73–272, 2015.
BOUSDEKIS, A., APOSTOLOU, D., & MENTZAS, G. Predictive Maintenance in the 4th Industrial Revolution: Benefits, Business Opportunities and Managerial Implications. IEEE Engineering Management Review, 48(1), 57–62, 2019.
BROWN, T. Design Thinking: uma metodologia poderosa para decretar o fim das velhas ideias. Alta Books, 2020.
CAMPBELL, M., KELLY, S., JUNG, R., LANG, J., & white paper. The State of Industrial Augmented Reality. PTC, 10, 2017.
CATAPAN, A. H., FILHO, P. C., SOUZA, A. C., THOMÉ, Z. R. C., & CYBUS, W. A. Ergonomia em Software Educacional: A possível integração entre usabilidade e aprendizagem. IHC’99 II Workshop Sobre Fatores Humanos Em Sistemas Computacionais, 1999.
DESIGNCOUNCIL, A study of the design process. 44(0), 2017.
FRASCARA, P. J. La necesidad del diseño de información. Foro Alfa, 1–7, 2011.
GABBARD, J. L., SWAN, J. E., HIX, D., LANZAGORTA, M., LIVINGSTON, M., BROWN, D., & JULIER, S. Usability Engineering: Domain Analysis Activities for Augmented Reality Systems. 4660(202), 445–457, 2002.
GARRETT, J. J. The elements of user experience: user-centered design for the web and beyond. Pearson Education, 2010.
GUSTAFSSON, D. Analysing the Double diamond design process through research & implementation, 2019.
IDEO. The Field Guide to Human-centered Design: Design Kit. Ideo, 2015.
ISO 9241-11: Ergonomic requirements for office work with visual display terminals (VDTs) - Part 11 Guidance on usability, 1998.
ISO/IEC TR 9126-4:2004: Software engineering — Product quality — Part 4: Quality in use metrics, 2004.
JETTER, J., EIMECKE, J., & RESE, A. Augmented reality tools for industrial applications: What are potential key performance indicators and who benefits? Computers in Human Behavior, 87, 18–33, 2018.
LIN, C. Y., CHAI, H. C., WANG, J. Y., CHEN, C. J., LIU, Y. H., CHEN, C. W., LIN, C. W., & HUANG, Y. M. Augmented reality in educational activities for children with disabilities. Displays, 42, 51–54, 2016.
LIOU, H.-H., YANG, S. J. H., CHEN, S. Y., & TARNG, W. The Influences of the 2D Image-Based Augmented Reality and Virtual Reality on Student Learning. Educational technology & Society, 20(3), 110–121, 2017.
MERENDA, C., KIM, H., TANOUS, K., GABBARD, J. L., FEICHTL, B., MISU, T., & SUGA, C. Augmented Reality Interface Design Approaches for Goal-directed and Stimulus-driven Driving Tasks. IEEE Transactions on Visualization and Computer Graphics, 24(11), 2875–2885, 2018.
MIFSUD, J. (2020). Usability Metrics – A Guide To Quantify The Usability Of Any System. Usability Geek. Disponível em: usabilitygeek.com/usability-metrics-a-guide-to-quantify-system-usability. Acesso em 25 de Abril de 2022.
MILGRAM, P., & KISHINO, F. A taxonomy of mixed reality visual displays. IEICE TRANSACTIONS on Information and Systems, 77(12), 1321-1329, 1994.
MOURTZIS, D., ZOGOPOULOS, V., KATAGIS, I., & LAGIOS, P. Augmented Reality based Visualization of CAM Instructions towards Industry 4.0 paradigm: A CNC Bending Machine case study. Procedia CIRP, 70, 368–373, 2018.
OHNO, T. How the Toyota Production System was Created. Japanese Economic Studies, 10(4), 83–101, 1982.
PÁDUA, E. M. M. (2019). Metodologia da pesquisa: Abordagem teórico-prática. Papirus Editora, 2019.
PALMARINI, R., ERKOYUNCU, J. A., ROY, R., & TORABMOSTAEDI, H. A systematic review of augmented reality applications in maintenance. Robotics and Computer-Integrated Manufacturing, 49, 215-228, 2018.
PATTI, E., MOLLAME, A., ERBA, D., DALMASSO, D., OSELLO, A., MACII, E., & ACQUAVIVA, A. Information Modeling for virtual and Augmented Reality. IT Professional, 19(3), 52–60, 2017.
QUINTÃO, F. S., & TRISKA, R. Design de informação em interfaces digitais: origens, definições e fundamentos Information design: origins, definitions and foundations. Revista Brasileira de Design da Informação, 105–118, 2013.
RE, G. M. Low Cost Augmented Reality for Industrial Problem. Politecnico Di Milano, 2013.
SCHULENBURG, H. R. W., VELA, J. C., FIALHO, F. A. P., & TRISKA, R. O Ergodesing e a Engenharia de Usabilidade de Interfaces, como Facilitadores para Usuários na Busca de Informações. Human Factors in Design, 3(06), 48-62, 2015.
SCHWAB, K. The fourth industrial revolution. Currency, 2017.
SCURATI, G. W., GATTULLO, M., FIORENTINO, M., FERRISE, F., BORDEGONI, M., & UVA, A. E. Converting maintenance actions into standard symbols for Augmented Reality applications in Industry 4.0. Computers in Industry, 98, 68–79, 2018.
SEO, D. W., KIM, H., KIM, J. S., & LEE, J. Y. Hybrid reality-based user experience and evaluation of a context-aware smart home. Computers in Industry, 76, 11–23, 2016.
SURYANTO, A., KUSUMAWATI, D. A., & SANHOURY, I. M. H. Development of Augmented Reality Technology Based Learning Media of Lathe Machines. Jurnal Pendidikan Teknologi Dan Kejuruan, 24(1), 32–38, 2018.
TEIXEIRA, J. M., HENRIQUE, C. D., & de ALCÂNTARA BRAGLIA, I. Proposta de fluxograma para design de interfaces digitais: um exemplo prático de como transformar informações de projeto em requisitos de função e conteúdo. Brazilian Journal of Development, 6(5), 31531-31548, 2020.
ZHANG, X.; ZHANG, H.; ZHANG, L.; ZHU, Y.; HU, F. Double-Diamond Model-Based Orientation Guidance. SENSORS, 19(4670), 2019.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2025 Human Factors in Design
This work is licensed under a Creative Commons Attribution 4.0 International License.
Os artigos publicados pela revista são de uso gratuito, destinados a aplicações acadêmicas e não comerciais. Os direitos autorais são todos cedidos à revista. Os artigos cujos autores são identificados representam a expressão do ponto de vista de seus autores e não a posição oficial da revista Human Factors Design. O (s) autor (es) se compromete a sempre que publicar material referente ao artigo publicado na Revista Human Factors Design mencionar a referida publicação da seguinte forma:
Este artigo foi públicado originalmente pela Revista Human Factors Design em seu volume (colocar o volume), número (colocar o número) no ano de (colocar o ano) e pode ser acessado em: https://periodicos.udesc.br/index.php/hfd/index
