Implantação do sistema torre de controle para a gestão de entrega

Authors

DOI:

https://doi.org/10.26853/Refas_ISSN-2359-182X_v10n04_03

Keywords:

Torre de Controle Logística, Vantagens Competitivas, Implantação, Transporte

Abstract

A Torre de Controle Logística proporciona uma visibilidade completa para as empresas ao longo da cadeia de suprimentos e do transporte. Isso simplifica a identificação de problemas e oportunidades de aprimoramento no mercado. Os impactos negativos podem ser prontamente solucionados e vantagens competitivas podem ser criadas. O objetivo deste trabalho é detalhar o conceito e os benefícios da Torre de Controle Logística, bem como apresentar as três possíveis abordagens para a implementação desse sistema em empresas e analisar seus motivadores: visão 1 empresa que desenvolveu internamente esse monitoramento; visão 2 empresa que comercializa e implementa esse sistema para outras empresas e visão 3 empresa que está no estágio inicial do projeto de implantação e busca a parceria com uma consultoria especializada.

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Author Biographies

Débora Ferreira Dias, IFSP, campus Suzano

Analista de Logística. Pós-graduada em Logística pelo IFSP, campus Suzano.

Adriano Maniçoba da Silva, IFSP, campus Suzano

Professor no IFSP, campus Suzano. Doutor em Administração pela FEA-USP.

References

AHMED, W.; NAJMI, A.; IKRAM, M. Steering firm performance through innovative capabilities: A contingency approach to innovation management. Technology in Society, v. 63, 101385, 2020.

AKRAM, K. et al. Role of Knowledge Management to Bring Innovation: An Integrated Approach. Internationl Bulletin of Business Administration, pp. 121- 134, 2011.

BHOSLE, G. et al. Global Supply Chain Control Towers. p. 16, 2011. Disponível em https://www.capgemini.com/wp-content/uploads/2017/07/Global_Supply_Chain_Control_Towers.pdf. Acesso em 05 de set. de 2023.

BOSSE, A. et al. Dynamic priority rules for combining on-demand passenger transportation and transportation of goods. European Journal of Operational Research, v. 309, Issue 1, pp. 399-408, 2023.

COOKE, J.A.: Protean Supply Chains: Ten Dynamics of Supply and Demand Alignment. Wiley, Hoboken, New Jersey. ISBN: 978-1-118-75966-0 June 2014 256 Pages, 2014.

FERNANDES, K. S. DOS. Logística: Fundamentos e Processos. Curitiba, PR: IESDE Brasil, 2012.

FERREIRA, J.; COELHO, A.; MOUTINHO, L. Dynamic capabilities, creativity and innovation capability and their impact on competitive advantage and firm performance: The moderating role of entrepreneurial orientation. Technovation, v. 92–93, 2020, 102061, 2020.

GHOBAKHLOO, M. Industry 4.0, digitization, and opportunities for sustainability. Journal of Cleaner Production, v. 252, 119869, ISSN 0959-6526, 2020.

HAARTMAN, R. et al. Visual management in the era of Industry 4.0: perceived advantages and disadvantages of digital boards. International Journal of Advanced Operations Managemen, v. 15, pp. 24-41, 2023.

IBARRA, D.; GANZARAIN, J.; IGARTUA, J. I. Business model innovation through Industry 4.0: A review. Procedia Manufacturing, v. 22, pp. 4-10, ISSN 2351-9789, 2018.

KAGGEMANN, H. Change Through Digitazation-Value creation in the Age of the Industry 4.0. Management of Permanent Change, pp. 23-45, 2015.

LOOKMAN, K.; PUJAWAN, N.; NADLIFATIN, R. Innovative capabilities and competitive advantage in the era of industry 4.0: A study of trucking industry. Research in Transportation Business & Management, v. 47, 100947, 2023.

MENA, C.; CHRISTOPHER, M.; HOEK, R. Leading Procurement Strategy: Driving Value through the Supply Chain. Kogan Page, London – Philadelphia – New Delhi, 2014.

MIDKIFF, C. Using a control tower approach to drive visibility, aid planning and improve supply chain reliability. Journal of Supply Chain Management, Logistics and Procurement, v. 4/Number 1/Autumn/Fall, pp. 70-78(9), 2021.

NETTSTRÄTER, A. et al. Logistics Software Systems and Functions: An Overview of ERP, WMS, TMS and SCM Systems. Cloud Computing for Logistics, 2015.

PFLEEGER, S. L. Engenharia de Software – Teoria e Prática. 02. ed. São Paulo: Prentice Hall, p. 537, 2004.

ROJAS, B. et al. Fleet Management and Control System for Medium-Sized Cities Based in Intelligent Transportation Systems: From Review to Proposal in a City. Electronics 9, 1383, 2020.

SHAHEEN, S. A.; FINSON, R. Intelligent Transportation Systems. Encyclopedia of Energy, Elsevier, pp. 487-496, 2004.

SHOU-WEN, J.; YING, T.; YANG-HUA, G. Study on Supply Chain Information Control Tower System. Information Technology Journal, 12: 8488-8493, 2013.

SIREGAR, Z. M. E. et al. Does Knowledge Management Enhance Innovation: A Literature Review. INTERNATIONAL JOURNAL OF SCIENTIFIC & TECHNOLOGY RESEARCH, v. 8, ISSUE 09, 2019

SOMMERVILLE, I. Engenharia de Software. 09. ed. São Paulo: Pearson Prentice Hall, p. 529, 2011.

TAO, L.; SU, X.; JAVED, S. A. Time-cost trade-off model in GERT-type network with characteristic function for project management. Computers & Industrial Engineering, v. 169, 108222, 2022.

TOPAN, E. et al. A review of operational spare parts service logistics in service control towers. European Journal of Operational Research, v. 282, Issue 2, pp. 401-414, 2020.

TRZUSKAWSKA-GRZESINSK A. Control towers in supply chain management – past and future. Journal of Economics and Management, pp. 114-133, 2017.

Project Management Institute. A guide to the Project Management Body of Knowledge (PMBOK guide). ed.6 . Project Management Institute, 2017.

YÜCEL, E.; SALMAN, F. S.; ERDOGAN, G. Optimizing two-dimensional vehicle loading and dispatching decisions in freight logistics. European Journal of Operational Research, v. 302, Issue 3, pp. 954-969, 2022.

Published

2024-04-27

How to Cite

Dias, D. F., & Silva, A. M. da. (2024). Implantação do sistema torre de controle para a gestão de entrega. Refas - Revista Fatec Zona Sul, 10(4), 11–22. https://doi.org/10.26853/Refas_ISSN-2359-182X_v10n04_03

Issue

Section

Logística

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