Robot-Based Last-Mile Deliveries With Pedestrian Zones

Iurii Bakach; Ann Melissa Campbell; Jan Fabian Ehmke

doi:10.3389/ffutr.2021.773240

Robot-Based Last-Mile Deliveries With Pedestrian Zones

Iurii Bakach, Ann Melissa Campbell, Jan Fabian Ehmke (Corresponding author)

Department of Business Decisions and Analytics

Publications: Contribution to journal › Article › Peer Reviewed

Abstract

Since delivery robots share sidewalks with pedestrians, it may be beneficial to choose paths for them that avoid zones with high pedestrian density. In this paper, we investigate a robot-based last-mile delivery problem considering path flexibility given the presence of zones with varying pedestrian level of service (LOS). Pedestrian LOS is a measure of pedestrian flow density. We model this new problem with stochastic travel times and soft customer time windows. The model includes an objective that reflects customer service quality based on early and late arrivals. The heuristic solution approach uses the minimum travel time paths from different LOS zones (path flexibility). We demonstrate that the presence of pedestrian zones leads to alternative path choices in 30% of all cases. In addition, we find that extended time windows may help increase service quality in zones with high pedestrian density by up to 40%.

Original language	English
Article number	773240
Number of pages	12
Journal	Frontiers in Future Transportation
Volume	2
DOIs	https://doi.org/10.3389/ffutr.2021.773240
Publication status	Published - 2022

Austrian Fields of Science 2012

502017 Logistics

Keywords

MR (Management of Resources)
last-mile
delivery
urban
logistics
robots

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10.3389/ffutr.2021.773240Licence: CC BY 4.0

https://phaidra.univie.ac.at/o:1544794Licence: CC BY 4.0

Cite this

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title = "Robot-Based Last-Mile Deliveries With Pedestrian Zones",

abstract = "Since delivery robots share sidewalks with pedestrians, it may be beneficial to choose paths for them that avoid zones with high pedestrian density. In this paper, we investigate a robot-based last-mile delivery problem considering path flexibility given the presence of zones with varying pedestrian level of service (LOS). Pedestrian LOS is a measure of pedestrian flow density. We model this new problem with stochastic travel times and soft customer time windows. The model includes an objective that reflects customer service quality based on early and late arrivals. The heuristic solution approach uses the minimum travel time paths from different LOS zones (path flexibility). We demonstrate that the presence of pedestrian zones leads to alternative path choices in 30% of all cases. In addition, we find that extended time windows may help increase service quality in zones with high pedestrian density by up to 40%.",

keywords = "MR (Management of Resources), last-mile, delivery, urban, logistics, robots",

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doi = "10.3389/ffutr.2021.773240",

language = "English",

volume = "2",

journal = "Frontiers in Future Transportation",

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T1 - Robot-Based Last-Mile Deliveries With Pedestrian Zones

AU - Bakach, Iurii

AU - Campbell, Ann Melissa

AU - Ehmke, Jan Fabian

PY - 2022

Y1 - 2022

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AB - Since delivery robots share sidewalks with pedestrians, it may be beneficial to choose paths for them that avoid zones with high pedestrian density. In this paper, we investigate a robot-based last-mile delivery problem considering path flexibility given the presence of zones with varying pedestrian level of service (LOS). Pedestrian LOS is a measure of pedestrian flow density. We model this new problem with stochastic travel times and soft customer time windows. The model includes an objective that reflects customer service quality based on early and late arrivals. The heuristic solution approach uses the minimum travel time paths from different LOS zones (path flexibility). We demonstrate that the presence of pedestrian zones leads to alternative path choices in 30% of all cases. In addition, we find that extended time windows may help increase service quality in zones with high pedestrian density by up to 40%.

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Robot-Based Last-Mile Deliveries With Pedestrian Zones

Abstract

Austrian Fields of Science 2012

Keywords

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