DESAFIOS E OPORTUNIDADES DAS TECNOLOGIAS 4.0 NO SETOR DA CONSTRUÇÃO: analisando a percepção dos gestores do estado de Pernambuco
analyzing manager' perceptions in Pernambuco state
DOI:
https://doi.org/10.13037/gr.vol41.e20258957Palavras-chave:
Sustentabilidade, Inovação, Construção 4.0, Motivadores, Barreiras, BenefíciosResumo
A literatura mostra que as tecnologias 4.0 têm um impacto significativo no enfrentamento do déficit habitacional e na sustentabilidade. No entanto, no setor da construção civil, existem implicações sociais e técnicas que dificultam essa transformação, principalmente para empresas localizadas em países emergentes. Assim, compreender as percepções dos gestores pode auxiliar na formulação de estratégias e políticas públicas. Estudamos os desafios e oportunidades das novas tecnologias segundo a percepção dos gestores de construtoras localizadas em Pernambuco, Brasil. Os resultados demonstram que a falta de interesse dos gestores, a falta de capital e a falta de conhecimento são barreiras reconhecidas para a implementação de tecnologias 4.0 no setor da construção. Embora os gestores saibam que as tecnologias 4.0 podem contribuir para a redução de custos, aumento da produtividade, qualidade e competitividade, a maioria deles tem dificuldade em relacionar a cultura organizacional atual com os desafios da adoção de novas tecnologias.
Downloads
Referências
Abioye, S. O., Oyedele, L. O., Akanbi, L., Ajayi, A., Delgado, J. M. D., Bilal, M., Akinade, O.O. & Ahmed, A. (2021). Artificial intelligence in the construction industry: A review of present status, opportunities and future challenges. Journal of Building Engineering, 44, 103299.
Aghimien, D., Aigbavboa, C., Aghimien, L., Thwala, W., & Ndlovu, L. (2021). 3D Printing for sustainable low-income housing in South Africa: A case for the urban poor. Journal of Green Building, 16(2), 129-141.
Akanmu, A. A., Anumba, C. J., & Ogunseiju, O. O. (2021). Towards next generation cyber-physical systems and digital twins for construction. The Journal of Information Technology in Construction (ITcon), 26, 505-525.
Alaloul, W. S., Liew, M. S., Zawawi, N. A. W. A., & Kennedy, I. B. (2020). Industrial Revolution 4.0 in the construction industry: Challenges and opportunities for stakeholders. Ain shams engineering journal, 11(1), 225-230.
Alhammadi, E. M. A., Kasim, R., & Lohana, S. (2022). Knowledge Management Factors Affecting Construction Project Performance Model. International Journal of Sustainable Construction Engineering and Technology, 13(1), 149-158.
Aragão, J. P. S., & Fontana, M. E. (2022). Guidelines for public sector managers on assessing the impact of outsourcing on business continuity strategies: a Brazilian case. Journal of Global Operations and Strategic Sourcing, (ahead-of-print). https://doi.org/10.1108/JGOSS-07-2021-0051
Balasubramanian, S., Shukla, V., Islam, N., & Manghat, S. (2021). Construction industry 4.0 and sustainability: an enabling framework. IEEE transactions on engineering management, 1-19.
Begić, H., & Galić, M. (2021). A Systematic Review of Construction 4.0 in the Context of the BIM 4.0 Premise. Buildings, 11(8), 337.
Biswas, K., Rose, J., Eikevik, L., Guerguis, M., Enquist, P., Lee, B., Love, L., Green, J. & Jackson, R. (2017). Additive manufacturing integrated energy—enabling innovative solutions for buildings of the future. Journal of Solar Energy Engineering, 139(1), 015001.
Boton, C., Rivest, L., Ghnaya, O. & Chouchen M. (2021). What is at the root of construction 4.0: a systematic review of the recent research effort. Archives of Computational Methods in Engineering, 28, 2331-2350.
Câmara Brasileira da Indústria da Construção (CBIC). (2022). A atividade da construção civil é a âncora do desenvolvimento. Available in < https://cbic.org.br/a-atividade-da-construcao-civil-e-a-ancora-do-desenvolvimento/>
Cabral da Silva, W. B., & Magalhães Correia, A. M. (2022). Análise da inovação no segmento da indústria de cerâmica vermelha: Uma aplicação do radar da inovação. Gestão & Regionalidade, 38(115). https://doi.org/10.13037/gr.vol38n115.7568
Carneau, P., Mesnil, R., Roussel, N., & Baverel, O. (2020). Additive manufacturing of cantilever-from masonry to concrete 3D printing. Automation in Construction, 116, 103184.
Cronbach, L.J. (1951). Coefficient alpha and the internal structure of tests, Psychometrika, 16(3), 297-237.
da Silva, A., & Gil, M. M. (2020). Industrial processes optimization in digital marketplace context: A case study in ornamental stone sector. Results in Engineering, 7, 100152.
Dallasega, P., Rauch, E., & Linder, C. (2018). Industry 4.0 as an enabler of proximity for construction supply chains: A systematic literature review. Computers in industry, 99, 205-225.
De Muylder, C. F., Araújo, L. A., La Falce, J. L., & Mesquita, S. R. de L. (2021). Análise da percepção dos gestores e empregados acerca do comportameno inovador em uma indústria automobilística. Gestão & Regionalidade, 37(112). https://doi.org/10.13037/gr.vol37n112.5678
Delgado, J. M. D., Oyedele, L., Ajayi, A., Akanbi, L., Akinade, O., Bilal, M., & Owolabi, H. (2019). Robotics and automated systems in construction: Understanding industry-specific challenges for adoption. Journal of Building Engineering, 26, 100868.
Demirkesen, S., & Tezel, A. (2021). Investigating major challenges for industry 4.0 adoption among construction companies. Engineering, Construction and Architectural Management, 29(3), 1470-1503.
Deng, T., Zhang, K., & Shen, Z. J. M. (2021). A systematic review of a digital twin city: A new pattern of urban governance toward smart cities. Journal of Management Science and Engineering, 6(2), 125-134.
El-Sayegh, S., Romdhane, L., & Manjikian, S. (2020). A critical review of 3D printing in construction: Benefits, challenges, and risks. Archives of Civil and Mechanical Engineering, 20(2), 1-25.
Ern, P. A. S., Ooi, Y. Y., & Al-Ashmori, Y. Y. (2020). Comparative study on the perspective towards the benefits and hindrances of implementing building information modelling (Bim). International Journal of Sustainable Construction Engineering and Technology, 11(1), 194-205.
Federação das Indústrias do Estado do Rio de Janeiro (FIRJAN). (2019). Indústria 4.0 no Brasil: Oportunidades, perspectivas e desafios. Firjan SENAI, Finep. Rio de Janeiro. Available in <https://www.firjan.com.br/publicacoes/publicacoes-de-inovacao/industria-4-0-no-brasil-oportunidades-perspectivas-e-desafios.htm>
Federação das Indústrias do Estado de Pernambuco (FIEPE). (2022). Sondagem Industrial da Construção. 04. Available in <http://fiepe.org.br/sondagens-da-industria-e-da-construcao-apontam-recuo/>
Fundação João Pinheiro(FJP). (2021). Déficit Habitacional no Brasil. Available in: < http://fjp.mg.gov.br/deficit-habitacional-no-brasil/>
Hadzaman, N. A. H., Takim, R., & Nawawi, A. H. (2020). Client governing success criteria in Building Information Modelling (BIM)-based projects. International Journal of Sustainable Construction Engineering and Technology, 11(1), 64-75.
He, R., Li, M., Gan, V. J., & Ma, J. (2021). BIM-enabled computerized design and digital fabrication of industrialized buildings: A case study. Journal of Cleaner Production, 278, 123505.
Hussein, M., Eltoukhy, A. E., Karam, A., Shaban, I. A., & Zayed, T. (2021). Modelling in off-site construction supply chain management: A review and future directions for sustainable modular integrated construction. Journal of Cleaner Production, 310, 127503.
Instituto Brasileiro de Geografia e Estatística (IBGE). (2022). Custos da construção sobem 18,65% em 2021, maior taxa em nove anos. Available in <https://agenciadenoticias.ibge.gov.br/agencia-noticias/2012-agencia-de-noticias/noticias/32719-custos-da-construcao-sobem-18-65-em-2021-maior-taxa-em-nove-anos >
International Data Corporation (IDC). (2020). Digital Transformation: The Future of Connected Construction. Sponsored by Autodesk. Available in: <http://constructioncloud.autodesk.com/rs/572-JSV-775/images/Autodesk-IDC-Digital%20Transformation_The-Future-of-Connected-Construction.pdf>
Kedir, F., & Hall, D. M. (2021). Resource efficiency in industrialized housing construction-A systematic review of current performance and future opportunities. Journal of Cleaner Production, 286, 125443.
Kozlovska, M., Klosova, D., & Strukova, Z. (2021). Impact of industry 4.0 platform on the formation of construction 4.0 concept: a literature review. Sustainability, 13(5), 2683.
Kuipers, M., Tomé, A., Pinheiro, T., Nunes, M., & Heitor, T. (2014). Building space-use analysis system—A multi location/multi sensor platform. Automation in Construction, 47, 10-23.
Leite, G., & Fontana, M. E. (2021). Additive manufacturing and the evolution of the construction industry: a Systematic Literature Review 2015-2021. In 2021 International Conference on Decision Aid Sciences and Application (DASA) (pp. 294-298).
Lenz, L., Weist, K. C., Hoepfner, M., Spyridis, P., & Gralla, M. (2020). Symbiosis of life-cycle structural design and asset management based on Building Information Modeling: Application for industrial facility equipment. Organization, Technology and Management in Construction: an International Journal, 12(1), 2170-2180.
Leontitsis, A. & Pagge, J. (2007). A simulation approach on Cronbach's alpha statistical significance, Mathematics and Computers in Simulation 73(5), 336-340.
Mannino, A., Dejaco, M. C., & Re Cecconi, F. (2021). Building information modelling and internet of things integration for facility management—Literature review and future needs. Applied Sciences, 11(7), 3062.
Maskuriy, R., Selamat, A., Ali, K. N., Maresova, P., & Krejcar, O. (2019). Industry 4.0 for the construction industry—how ready is the industry?. Applied Sciences, 9(14), 2819.
Mesa, H. A., Molenaar, K. R., & Alarcón, L. F. (2016). Exploring performance of the integrated project delivery process on complex building projects. International Journal of Project Management, 34(7), 1089-1101.
Mesa-Fernández, J. M., Piquero Camblor, J. C., Díaz Piloñeta, M., & Morán Palacios, H. (2020). Productive processes based on 3D printing versus conventional methodologies: A comparative analysis in the construction sector. Construction technology, 95 (2020) 299-304.
Nagy, O., Papp, I., & Szabó, R. Z. (2021). Construction 4.0 Organisational Level Challenges and Solutions. Sustainability, 13(21), 12321.
Nawi, M. N.M., Baluch, N. H., & Bahaudin, A. Y. (2014). Impact of fragmentation issue in construction industry: An overview. In Building Surveying, Facilities Management and Engineering Conference, 15, 01009.
Newman, C., Edwards, D., Martek, I., Lai, J., Thwala, W. D., & Rillie, I. (2020). Industry 4.0 deployment in the construction industry: a bibliometric literature review and UK-based case study. Smart and Sustainable Built Environment, 10(4), 557-580.
Nguyen-Van, V., Panda, B., Zhang, G., Nguyen-Xuan, H., & Tran, P. (2021). Digital design computing and modelling for 3-D concrete printing. Automation in Construction, 123, 103529.
Nguyen, T-Q., Thieu-Thi, T-T. & Vu, N-N. (2021). BIM-based Competitive Advantages and Competitive Strategies for Construction Consultancy SMEs: A Case Study in Vietnam. International Journal of Sustainable Construction Engineering and Technology, 12(3), 1-11.
Oesterreich, T. D., & Teuteberg, F. (2016). Understanding the implications of digitisation and automation in the context of Industry 4.0: A triangulation approach and elements of a research agenda for the construction industry. Computers in industry, 83, 121-139.
Opoku, D. G. J., Perera, S., Osei-Kyei, R., & Rashidi, M. (2021). Digital twin application in the construction industry: A literature review. Journal of Building Engineering, 40, 102726.
Perrier, N., Bled, A., Bourgault, M., Cousin, N., Danjou, C., Pellerin, R., & Roland, T. (2020). Construction 4.0: A survey of research trends. Journal of Information Technology in Construction (ITcon), 25(24), 416-437.
Rivera, M. L., Mora-Serrano, J., Valero, I., & Oñate, E. (2021). Methodological-technological framework for Construction 4.0. Archives of computational methods in engineering, 28(2), 689-711.
Qi, B., Qian, S., & Costin, A. (2020). A Predictive Analysis on Emerging Technology Utilization in Industrialized Construction in the United States and China. Algorithms, 13(8), 180.
Qi, B., Razkenari, M., Costin, A., Kibert, C., & Fu, M. (2021). A systematic review of emerging technologies in industrialized construction. Journal of building engineering, 39, 102265.
Qian, Y., & Leng, J. (2021). CIM-based modeling and simulating technology roadmap for maintaining and managing Chinese rural traditional residential dwellings. Journal of Building Engineering, 44, 103248.
Saieg, P., Sotelino, E. D., Nascimento, D., & Caiado, R. G. G. (2018). Interactions of building information modeling, lean and sustainability on the architectural, engineering and construction industry: a systematic review. Journal of cleaner production, 174, 788-806.
Sallehuddin, A. M., Omar, R., & Sarpin, N. (2021). Proposing an Absorptive Capacity Framework of Small and Medium Sized Enterprises (SMEs) in Construction Industry. International Journal of Sustainable Construction Engineering and Technology, 12(5), 241-248.
Sepasgozar, S. M. (2021). Differentiating digital twin from digital shadow: Elucidating a paradigm shift to expedite a smart, sustainable built environment. Buildings, 11(4), 151.
Sherratt, F., Dowsett, R., & Sherratt, S. (2020). Construction 4.0 and its potential impact on people working in the construction industry. Proceedings of the Institution of Civil Engineers-Management, Procurement and Law, 173(4), 145-152.
Tay, Y. W. D., Panda, B., Paul, S. C., Noor Mohamed, N. A., Tan, M. J., & Leong, K. F. (2017). 3D printing trends in building and construction industry: a review. Virtual and Physical Prototyping, 12(3), 261-276.
Turner, C. J., Oyekan, J., Stergioulas, L., & Griffin, D. (2020). Utilizing industry 4.0 on the construction site: Challenges and opportunities. IEEE Transactions on Industrial Informatics, 17(2), 746-756.
Yevu, S. K., Ann, T. W., & Darko, A. (2021). Digitalization of construction supply chain and procurement in the built environment: Emerging technologies and opportunities for sustainable processes. Journal of Cleaner Production, 322, 129093.
Wang, M., Wang, C. C., Sepasgozar, S., & Zlatanova, S. (2020). A systematic review of digital technology adoption in off-site construction: Current status and future direction towards industry 4.0. Buildings, 10(11), 204.
World Economic Forum (WEF). (2016). Shaping the future of construction - a breakthrough in mindset and technology. World Economic Forum, Geneva, Switzerland. Available in: < https://www.weforum.org/reports/shaping-the-future-of-construction-a-breakthrough-in-mindset-and-technology>
World Intellectual Property Organization (WIPO). (2021). Índice Global de Inovação. Available in <https://www.wipo.int/edocs/pubdocs/pt/wipo_pub_gii_2021_exec.pdf>
Xu, J., & Moreu, F. (2021). A Review of Augmented Reality Applications in Civil Infrastructure During the 4th Industrial Revolution. Frontiers in Built Environment, 7, 640732.
Downloads
Publicado
Edição
Seção
Licença
Direitos autorais (c) 1969 Gabriela Eloanne Vidal Leite, Marcele Elisa Fontana (Autor)
Este trabalho está licenciado sob uma licença Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Autores que publicam nesta revista concordam com os seguintes termos:
- Autores mantém os direitos autorais e concedem à revista o direito de primeira publicação, com o trabalho simultaneamente licenciado sob a https://creativecommons.org/
licenses/by-nc-nd/4.0/, permitindo o compartilhamento do trabalho com reconhecimento da autoria do trabalho e publicação inicial nesta revista. - Autores têm autorização para assumir contratos adicionais separadamente, para distribuição não-exclusiva da versão do trabalho publicada nesta revista (ex.: publicar em repositório institucional ou como capítulo de livro), com reconhecimento de autoria e publicação inicial nesta revista.
- Autores têm permissão e são estimulados a publicar e distribuir seu trabalho online (ex.: em repositórios institucionais ou na sua página pessoal) a qualquer ponto antes ou durante o processo editorial, já que isso pode gerar alterações produtivas, bem como aumentar o impacto e a citação do trabalho publicado (Veja O Efeito do Acesso Livre).
