Litcius/Paper detail

Last Mile Urban Freight Distribution: A Modelling Framework to Estimate E-Cargo Bike Freight Attraction Demand Share

Luca Mantecchini, Francesco Paolo Nanni Costa, Valentina Rizzello

2025Future Transportation9 citationsDOIOpen Access PDF

Abstract

Urban freight transportation is facing significant challenges due to increasing demand, driven by globalization, e-commerce growth, and the adoption of just-in-time logistics. These trends have led to rising vehicle flows in urban areas, negatively impacting sustainability, economic efficiency, and road safety. In response, cities are exploring innovative last-mile delivery strategies that emphasize sustainability, flexibility, and cost efficiency. Among these strategies, cargo bikes—particularly electric cargo bikes (e-cargo bikes)—are emerging as promising low-emission solutions for urban freight distribution. However, despite their potential, a generalized methodology for estimating their demand share in urban contexts remains underdeveloped. This study proposes a comprehensive modelling framework to evaluate the freight demand share that can be addressed by e-cargo bikes, integrating quantity, restocking service, modal, and delivery sub-models, calibrated using data from a case study in Italy. The results demonstrate that e-cargo bikes could fulfil up to 20% of urban freight demand, depending on the category of goods transported, and underscore the feasibility of integrating e-cargo bikes into urban logistics systems. However, critical challenges related to scalability and cost-effectiveness persist, highlighting the need for further research and reliable cost data to support broader implementation.

Topics & Concepts

Transport engineeringMileAttractionLast mile (transportation)BusinessDistribution (mathematics)Trip generationGeographyEngineeringMathematicsTRIPS architectureMathematical analysisLinguisticsPhilosophyGeodesyUrban and Freight Transport LogisticsTransportation and Mobility InnovationsMaritime Ports and Logistics