Digital and Sustainable Transition in Textile Industry through Internet of Things Technologies: A Pakistani Case Study

The textile industry, a vital contributor to Pakistan’s economy, faces pressing challenges in transitioning towards sustainability amid global environmental concerns. This manuscript presents a comprehensive case study on the implementation of IoT-driven strategies in the Pakistani textile sector to...

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Bibliographic Details
Published in:Applied sciences 2024-07, Vol.14 (13), p.5380
Main Authors: Petrillo, Antonella, Rehman, Mizna, Baffo, Illaria
Format: Article
Language:English
Subjects:
Decision making
digitalization
Energy consumption
innovation
Internet of Things
IoT (Internet of Things)
SDGs (sustainable development goals)
Sensors
Sustainability
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Summary:The textile industry, a vital contributor to Pakistan’s economy, faces pressing challenges in transitioning towards sustainability amid global environmental concerns. This manuscript presents a comprehensive case study on the implementation of IoT-driven strategies in the Pakistani textile sector to achieve digital and sustainable transformation. The findings reveal that the implementation of IoT technologies facilitated real-time environmental monitoring, enabling compliance with regulatory standards, and fostering sustainable manufacturing practices. Ultimately, this manuscript offers valuable insights into the transformative potential of IoT technologies in driving sustainable practices in the textile industry. The case study serves as a benchmark for other textile-producing regions aiming to embark on a digital and sustainable journey. These findings hold significant implications for the ongoing dialogue on sustainable industrial development, providing valuable direction for policymakers and stakeholders in shaping a more resilient and ecologically conscious future. Future research should prioritize addressing issues like data confidentiality and interoperability while adhering to standard requirements. Additionally, exploring analytics and machine learning methods for predictive maintenance, optimized performance, and operational improvement is crucial.
ISSN:2076-3417
2076-3417
DOI:10.3390/app14135380