Dimensioning On-Demand Vehicle Sharing Systems

Benjaafar, Saif; Wu, Shining; Liu, Hanlin; Gunnarsson, Einar Bjarki

doi:10.1287/mnsc.2021.3957

Cited by 34 publications

(2 citation statements)

References 48 publications

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“…We observe that surge pricing (Bai et al 2019, Guda andSubramanian 2019), capacity planning and resizing (Benjaafar et al 2021, Lyu et al 2019, and online assignment and matching ( Özkan and Ward 2020) are the most widely used operational strategies to…”

Section: Operations In Large-scale On-demand Service Platformsmentioning

confidence: 88%

Personal Shopper Systems in Last-Mile Logistics

Gaast

Arslan

2023

Service Science

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This paper explores the logistics operations of instant grocery delivery services. Therefore, we introduce the instant delivery problem (IDP) to replicate and examine two widely adopted strategies in the rapid delivery market: the personal shopper system (PSS) and the inventory owned delivery (IOD) system. In the PSS, couriers visit affiliated brick-and-mortar stores in the delivery area to pick up and purchase ordered products and then deliver them to customers. In the IOD system, couriers collect products from a single distribution center, or so-called dark store, in which the platform manages the inventory. Even though a PSS strategy is asset light because of the utilization of existing retailers in the area, maintaining a good level of on-time instant deliveries with the PSS is more complex than with IOD. This is because the PSS requires deciding which store to purchase ordered goods from, and picking and shopping at stores needs to be considered in the real-time decision process. We propose a tailored rolling horizon framework that utilizes column generation to browse updated delivery plans for arriving customer orders. Computational studies both in real life–inspired settings and in case studies on selected urban areas show that the PSS is a highly competitive strategy compared with IOD, particularly when dealing with small-sized customer orders. We observe that the performance of the PSS is robust when varying the delivery service time frame. The case studies also suggest that the PSS becomes even more competitive in areas where the retail store density is high. History: Special Issue—Innovation in Transportation-Enabled Urban Services. Funding: This work was supported by National Natural Science Foundation of China [Grant 72150410444] to J.P. van der Gaast. Supplemental Material: The e-companion is available at https://doi.org/10.1287/serv.2022.0310 .

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Section: Operations In Large-scale On-demand Service Platformsmentioning

confidence: 88%

Personal Shopper Systems in Last-Mile Logistics

Gaast

Arslan

2023

Service Science

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“…A mathematical model that reflected given circumstances was constructed to determine the optimal fleet size. Similarly, Benjaafar et al [51] used a CQN to model an on-demand vehicle-sharing system to determine the lower and upper bounds of optimal fleet size to maximise revenue considering given vehicle availability and wait times. First, the authors developed a stochastic optimisation fleet sizing problem considering location randomness and sizes of vehicles.…”

Section: Fleet Sizing Problems Using Queueing Network Modelsmentioning

confidence: 99%

A Closed Queueing Networks Approach for an Optimal Heterogeneous Fleet Size of an Inter-Facility Bulk Material Transfer System

Amjath,

Kerbache,

Smith

2024

Logistics

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Background: This study addresses optimising fleet size in a system with a heterogeneous truck fleet, aiming to minimise transportation costs in interfacility material transfer operations. Methods: The material transfer process is modelled using a closed queueing network (CQN) that considers heterogeneous nodes and customised service times tailored to the unique characteristics of various truck types and their transported materials. The optimisation problem is formulated as a mixed-integer nonlinear programming (MINLP), falling into the NP-Hard, making exact solution computation challenging. A numerical approximation method, a modified sequential quadratic programming (SQP) method coupled with a mean value analysis (MVA) algorithm, is employed to overcome this challenge. Validation is conducted using a discrete event simulation (DES) model. Results: The proposed analytical model tested within a steel manufacturing plant’s material transfer process. The results showed that the analytical model achieved comparable optimisation of the heterogeneous truck fleet size with significantly reduced response times compared to the simulation method. Furthermore, evaluating performance metrics, encompassing response time, utilisation rate, and cycle time, revealed minimal discrepancies between the analytical and the simulation results, approximately ±8%, ±8%, and ±7%, respectively. Conclusions: These findings affirm the presented analytical approach’s robustness in optimising interfacility material transfer operations with heterogeneous truck fleets, demonstrating real-world applications.

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A mean-field matrix-analytic method for bike sharing systems under Markovian environment

Fan

2021

Ann Oper Res

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Dimensioning On-Demand Vehicle Sharing Systems

Cited by 34 publications

References 48 publications

Personal Shopper Systems in Last-Mile Logistics

Personal Shopper Systems in Last-Mile Logistics

A Closed Queueing Networks Approach for an Optimal Heterogeneous Fleet Size of an Inter-Facility Bulk Material Transfer System

A mean-field matrix-analytic method for bike sharing systems under Markovian environment

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