Exploring the role of an underground logistics system in enhancing Swiss intermodal freight

Exploring the role of an underground logistics system in enhancing Swiss intermodal freight

This research examines the integration of intermodal freight transport within Switzerland’s logistics network, focusing on the role of Cargo Sous Terrain (CST), a proposed innovative underground logistics system. Using the Swiss Transport Outlook 2050 by the Federal Office for Spatial Development (A...

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Bibliographic Details
Main Authors: Mariana de Almeida Costa, Ihab Kaddoura, Annick Noll, Merlin Unterfinger, Miloš Balać, Francesco Corman
Format: Article
Language:English
Published: Elsevier 2025-09-01
Series:Transportation Engineering
Subjects:
Intermodal transport
Cargo Sous Terrain
Agent-based simulation
Freight transport
Intermodal share
Online Access:http://www.sciencedirect.com/science/article/pii/S2666691X25000740
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Summary:This research examines the integration of intermodal freight transport within Switzerland’s logistics network, focusing on the role of Cargo Sous Terrain (CST), a proposed innovative underground logistics system. Using the Swiss Transport Outlook 2050 by the Federal Office for Spatial Development (ARE), we developed an agent-based simulation model to analyse a potential future freight demand scenario considering inland, import and export cargo relevant to intermodal transport. The model evaluates the performance and interactions of road, rail, and CST, allowing containers to choose modes, routes, and schedules. This approach enables the investigation of intermodal dynamics, spatial factors, and transhipment processes. The results show that the modal share of intermodal rail remains stable and largely unaffected by CST, with its performance primarily dependent on terminal availability and capacity, maintaining a competitive position even when CST is fully developed. In contrast, the modal share of CST for intermodal transport is determined by network size, with a full CST network leading to significant increases in CST share. This expansion reduces road-leg distances for both rail and CST intermodal operations and promotes more regionalised freight flows, where specific terminals experience increased demand and shorter road legs. Additionally, the study examines the effects of varying costs and tolerance for delays on modal shares. By emphasising the importance of terminal infrastructure, network expansion, and coordinated mechanisms, the findings offer valuable insights into enhancing the efficiency, competitiveness, and sustainability of Switzerland’s intermodal freight system in response to future demand scenarios.
ISSN:2666-691X

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