Abstract
The Fourth Industrial Revolution, namely Industry 4.0, has provided opportunities for digitalization
and paradigm shifts in many industries and business sectors. Reverse logistics is currently being
increasingly focused on by worldwide companies and governments due to the pressure on
sustainable development and circular economy. Through the gradual but steady adoption of several
disruptive technologies in Industry 4.0, the traditional reverse logistics operations will be
dramatically improved with the increasing use of the internet of things (IoT), cyber-physical
systems (CPS), artificial intelligence (AI), digital twin, smart robots and machines, etc., which may
eventually lead to a smart and sustainable transformation of Reverse Logistics 4.0.
However, there is a lack of a systematic analysis of the impacts of these Industry 4.0 technologies
on reverse logistics. Moreover, the adoption of new technologies will further complicate the reverse
logistics network design at the initial stage, which involves many stakeholders with often
contradictive objectives. To fill these gaps, this Ph.D. project first presents a comprehensive
literature review and conceptualization of Reverse Logistics 4.0 in order to provide a holistic and
systematic analysis of the implications of disruptive technologies and Industry 4.0 for smart and
sustainable reverse logistics transformation. Based on the conceptualization, an improved two-level
decision-support framework, which combines both multi-objective optimization and dynamic
simulation, is proposed to better help with robust strategic decisions under high dynamicity and
uncertainty.
The methodological integration leads to the development of a conceptual framework for the digital
reverse logistics twin. It represents a high level of methodological and system integration that can
potentially connect the physical system and data with various analytical models for both proactive
and real-time decision supports in reverse logistics management. Finally, this Ph.D. project
presents several managerial implications and research implications for both industrial practitioners
and academic researchers.
Description
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Has part(s)
Paper 1: Sun, X., Yu, H., Solvang, W.D., Wang, Y. & Wang, K. (2022). The Application of Industry 4.0 Technologies in Sustainable Logistics: A Systematic Literature Review (2012—2020) to Explore Future Research Opportunities. Environmental Science and Pollution Research, 29, 9560-9591. Also available in Munin at https://hdl.handle.net/10037/23485.
Paper 2: Sun, X., Yu, H. & Solvang, W.D. Towards the Smart and Sustainable Transformation of Reverse Logistics 4.0: A Conceptualization and Research Agenda. (Submitted manuscript). Now published in Environmental Science and Pollution Research, 2022, available in Munin at https://hdl.handle.net/10037/26227.
Paper 3: Sun, X., Yu, H., Solvang, W.D. & Govindan, K. A Two-Level Decision-Support Framework for Smart and Sustainable Reverse Logistics Network Design. (Submitted manuscript).
Paper 4: Sun, X., Yu, H. & Solvang, W.D. (2022). System Integration for Smart Reverse Logistics Management. Proceeding of the IEEE/SICE International Symposium on System Integration (SII 2022), 821-826. (Accepted manuscript version). Also available in Munin at https://hdl.handle.net/10037/28623. Published version available at https://doi.org/10.1109/SII52469.2022.9708743.
Paper 5: Sun, X., Yu, H. & Solvang, W.D. A Digital Reverse Logistics Twin for Improving Sustainability in Industry 5.0. (Submitted manuscript).
English
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