Quantifying environmental impact reductions through metaverse technologies in transportation: Metrics, Methodologies and Sustainability Outcomes
1 Department of Project Management, College of Professional Studies, Northeastern University, Portland, Maine U.SA.
2 Department of Transportation, College of Economics and Applied Statistics, New Mexico State University, Las Cruces, New Mexico.
3 Department of Economics, College of Art and Sciences, Illinois State University, Normal IL U.S.A.
4 Department of Environmental Conservation, College of Natural Resources, University of Massachusetts, Boston MA U.S.A.
Review Article
Magna Scientia Advanced Research and Reviews, 2025, 13(02), 025-036
Article DOI: 10.30574/msarr.2025.13.2.0041
Publication history:
Received on 03 February 2025; revised on 11 March 20215 accepted on 13 March 2025
Abstract:
The metaverse has developed as a transformational digital ecosystem with far-reaching consequences for sustainability, especially in the transportation industry. This research critically examines the environmental effect reductions facilitated by metaverse technologies, focusing on key mechanisms such as virtual simulations, digital twins, remote work solutions, and logistics optimization. The findings demonstrate how these improvements help to reduce carbon emissions, minimize physical travel, and improve transportation efficiency.
The paper examines key metrics and approaches for analysing environmental effect, such as Life Cycle Assessment (LCA), carbon footprint analysis, and digital twin simulations. Despite the metaverse's potential to enhance sustainability, variations in measurement and data availability impede significance quantification. Policy and industrial consequences stress the need for regulatory frameworks that promote green digital infrastructure and responsible metaverse development.
The study also identifies limitations and risks, such as technological barriers, economic feasibility concerns, and resistance to virtual mobility adoption. Without sustainable manufacturing practices and robust e-waste recycling programs, the environmental benefits of the metaverse could be offset by increased digital infrastructure burdens. This paper concludes that while the metaverse presents a viable pathway to decarbonizing transportation, its full potential hinges on sustainable energy integration, global regulatory alignment, and further research into energy-efficient digital architectures.
Keywords:
Metaverse; Environmental Sustainability; Transportation Emissions; Digital Twins; Carbon Footprint
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Copyright © 2025 Author(s) retain the copyright of this article. This article is published under the terms of the Creative Commons Attribution Liscense 4.0