Uncovering Blockchain's Potential for Supply Chain Transparency: Qualitative Study on the Fashion Industry
DOI:
10.33395/sinkron.v8i2.13590Keywords:
Blockchain, Fashion Industry, Supply Chain, Transparency, Stakeholder InsightsAbstract
With the capacity to increase security and transparency, blockchain technology is being used as an interesting subject of investigation in the fashion industry. This underscores the importance of this current research endeavour. In terms of supply chain transparency, the fashion industry faces considerable barriers, thus requiring new approaches such as blockchain that can address issues such as child labour, unethical payment practices, and environmental impact. Main objective of this research is to identify how blockchain technology can improve transparency, accountability, and compliance with ethical standards. However, knowledge of the specific ways in which blockchain technology can improve transparency in the fashion supply chain, including the drivers and barriers, needs to be improved. The research method is described through a qualitative approach that includes in-depth interviews, participatory observation, and document analysis to collect data from various stakeholders in the industry, including manufacturers, distributors, and consumers. Explanation provides an overview of how the researcher collected and analysed data to achieve the research objectives. Blockchain increases transparency through the provision of verifiable and durable product records and fosters consumer-brand trust. Blockchain facilitates accountability and compliance with environmental and ethical standards, according to key findings. Research detected significant barriers, including exorbitant costs for implementation, limited knowledge of technology, and difficulties in fostering collaboration among relevant parties. Results of this study have far-reaching consequences, providing valuable insights to fashion industry stakeholders on how to overcome barriers to blockchain adoption. Long-term benefits of enhanced supply chain transparency and strategic recommendations ensure a smooth implementation process.
Downloads
References
Alexandris, G., Katos, V., Alexaki, S., & Hatzivasilis, G. (2018). Blockchains as Enablers for Auditing Cooperative Circular Economy Networks. IEEE.
Behl, A., Sampat, B., Gaur, J., Pereira, V., Laker, B., Shankar, A., Shi, P., & Roohanifar, M. (2023). Can gamification help green supply chain management firms achieve sustainable results in servitized ecosystem ? An empirical investigation. October.
Da, A. C., Júnior, S., Munoz, R., Quezada, M. D. E. L. O. S. Á., & Neto, A. V. L. (2021). Internet of Water Things : A Remote Raw Water Monitoring and Control System. IEEE Access, 9. https://doi.org/10.1109/ACCESS.2021.3062094
Hader, M., Tchoffa, D., El, A., Ghodous, P., Dolgui, A., & Abouabdellah, A. (2022). Applying integrated Blockchain and Big Data technologies to improve supply chain traceability and information sharing in the textile sector. 28(February).
Hindarto, D. (2023a). Blockchain-Based Academic Identity and Transcript Management in University Enterprise Architecture. 8(4), 2547–2559.
Hindarto, D. (2023b). Enterprise Architecture Development to Strengthen Sustainability in the Supply Chain. JTIK, 7(4).
Hindarto, D. (2023c). Supporting University Management System Digital Transformation with Enterprise Architecture. Jurnal JTIK (Jurnal Teknologi Informasi Dan Komunikasi), 7(4).
Hindarto, D. (2024). Building the Future of the Apparel Industry : The Digital Revolution in Enterprise Architecture. Sinkron, 9(1), 542–555.
Hindarto, D., & Djajadi, A. (2023). Android-manifest extraction and labeling method for malware compilation and dataset creation. 13(6), 6568–6577. https://doi.org/10.11591/ijece.v13i6.pp6568-6577
Hindarto, D., & Putra, T. D. (2024). Building Digital Platform for Property Marketing Sales with an Enterprise Architecture Approach. Journal of Computer Networks, Architecture and High Performance Computing, 6(1), 67–76. https://doi.org/https://doi.org/10.47709/cnahpc.v6i1.3199
Kouhizadeh, M., Saberi, S., & Sarkis, J. (2021). Blockchain technology and the sustainable supply chain : Theoretically exploring adoption barriers. 231(September 2019).
Kouhizadeh, M., Sarkis, J., & Zhu, Q. (2019). At the Nexus of Blockchain Technology, the Circular Economy, and Product Deletion. MDPI Applied Sciences. https://doi.org/https://doi.org/10.3390/app9081712
Li Da Xu, W. V. (2019). Application of Blockchain in Collaborative. IEEE TRANSACTIONS ON COMPUTATIONAL SOCIAL SYSTEMS, 6(6), 1295–1305.
Li, Z., Wang, W. M., Liu, G., Liu, L., & He, J. (2018). Toward open manufacturing: A cross-enterprises knowledge and services exchange framework based on blockchain and edge computing. 118(1), 303–320. https://doi.org/10.1108/IMDS-04-2017-0142
Lu, Y. (2018). Blockchain and the related issues: a review of current research topics. Journal of Management Analytics, 5(4), 231–255. https://doi.org/10.1080/23270012.2018.1516523
Nakamoto, S. (2009). Bitcoin : A Peer-to-Peer Electronic Cash System. Bitcoin.Org, 1–9. https://bitcoin.org/
Rusinek, M. J., Zhang, H., & Radziwill, N. (2018). Blockchain for a Traceable , Circular Textile Supply Chain : A Requirements Approach. Software Quality Professional, 21(1).
Viriyasitavat, W., Xu, L. Da, Bi, Z., & Member, S. (2019). New Blockchain-Based Architecture for Service Interoperations in Internet of Things. IEEE TRANSACTIONS ON COMPUTATIONAL SOCIAL SYSTEMS, 6(4), 739–748.
Yang, L. (2019). The blockchain : State-of-the-art and research challenges. Journal of Industrial Information Integration, 15(April), 80–90. https://doi.org/https://doi.org/10.1016/j.jii.2019.04.002
Downloads
How to Cite
Issue
Section
License
Copyright (c) 2024 Djarot Hindarto, Syariful Alim, Ferial Hendrata
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.