The Underlying Logic of the Front-end Warehouse Model: Fulfillment Efficiency and Spatial Economics in Instant Retail
DOI:
https://doi.org/10.70088/pwjp6v66Keywords:
front-end warehouse, fulfillment efficiency, spatial economics, instant retail, logistics optimizationAbstract
This research article explores the underlying logic of the front-end warehouse model, focusing on its impact on fulfillment efficiency and spatial economics within the context of instant retail. By dissecting the operational mechanisms and spatial dynamics, the study provides a structured framework for understanding how this model optimizes last-mile delivery and enhances consumer satisfaction. The findings contribute to the broader discourse on retail logistics and urban economic planning, offering actionable insights for stakeholders in the instant retail ecosystem.References
K. H. Leung, C. K. Lee, and K. L. Choy, "An integrated online pick-to-sort order batching approach for managing frequent arrivals of B2B e-commerce orders under both fixed and variable time-window batching," Adv. Eng. Inform., vol. 45, p. 101125, 2020.
K. H. Leung, "An intelligent warehouse postponement decision support system for efficient e-commerce order fulfillment," 2019.
M. Hompel and T. Schmidt, *Warehouse Management: Automation and Organisation of Warehouse and Order Picking Systems*. Springer Science & Business Media, 2006.
H. Lin, X. Li, and F. Liu, "Multi-warehouse assortment selection: Minimizing order splitting in e-commerce logistics," Prod. Oper. Manag., vol. 35, no. 3, pp. 1074-1094, 2026.
G. Yu and P. D. Yang, "Best Practice: Supply Chain Optimization at Yihaodian," in The Routledge Companion to Production and Operations Management, Routledge, 2017, pp. 632-644.
S. Jing, "Research on Optimization of Picking Strategy in Fresh Pre-Warehouse," in 2025 5th Int. Conf. Culture, Design and Social Development (CDSD 2025), Atlantis Press, Feb. 2026, pp. 599-613.
D. Zhang, S. Chen, N. Zhou, and P. Shi, "Location optimization of fresh food e-commerce front warehouse," Math. Biosci. Eng., vol. 20, no. 8, pp. 14899-14919, 2023.
A. Pal and K. Kant, "IoT-based sensing and communications infrastructure for the fresh food supply chain," Computer, vol. 51, no. 2, pp. 76-80, 2018.
J. Chen, M. Jiang, and G. Chen, "Research on Distribution Optimization Strategy of Front Warehouse Model Based on Deep Reinforcement Learning," Systems, vol. 14, no. 3, p. 261, 2026.
Z. Zhang, Y. Jiang, Q. Li, and A. Han, "OTPTO: Joint Product Selection and Inventory Optimization in Fresh E-commerce Front-End Warehouses," arXiv preprint arXiv:2505.23421, 2025.
A. H. Hübner, H. Kuhn, and J. Wollenburg, "Last mile fulfilment and distribution in omni-channel grocery retailing: a strategic planning framework," Int. J. Retail Distrib. Manag., vol. 44, no. 3, 2016.
G. Ayers, N. P. Nagendra, D. I. August, H. K. Cho, S. Kanev, C. Kozyrakis, ... and P. Ranganathan, "Asmdb: understanding and mitigating front-end stalls in warehouse-scale computers," in Proc. 46th Int. Symp. Comput. Archit., Jun. 2019, pp. 462-473.
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Copyright (c) 2026 Yingnan Ren (Author)

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