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Kania M, Rolf B, Assmann T, Zadek H (2022). The smaller, the better? Nano-hubs for cycle logistics as an urban-friendly alternative to micro-hubs. Logistics Journal : Proceedings, Vol. 2022. (urn:nbn:de:0009-14-55891)
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%0 Journal Article %T The smaller, the better? Nano-hubs for cycle logistics as an urban-friendly alternative to micro-hubs %A Kania, Malte %A Rolf, Benjamin %A Assmann, Tom %A Zadek, Hartmut %J Logistics Journal : Proceedings %D 2022 %V 2022 %N 18 %@ 2192-9084 %F kania2022 %X Especially for last-mile delivery in dense urban areas, cargo-bikes have become a sustainable alternative to overcome motorized delivery vehicles' traffic and environmental disadvantages. However, as their capacity and range are lower compared to conventional delivery vehicles, there is a need for additional cargo-bike transshipment hubs near the respective delivery areas. While some parcel service providers show that they are successfully testing different concepts such as micro-hubs, several barriers prevent the implementation beyond pilot status. Hence, our work aimed to overcome these barriers by introducing nano-hubs as an urban-friendly alternative to micro-hubs. In particular, we proposed a modular design concept that enables the customization of transshipment hubs considering urban planning restrictions and logistical processes. Further, we aimed to prove that the nano-hub approach also has economic advantages compared to previous cycle logistics processes. For this, we first developed nano-hub-modules on a conceptual level following the methodological approach for product development according to VDI 2221. We then implemented a simulation model to compare different (cycle) logistics processes with regard to their sustainability and operational effort. The findings of our work are twofold. First, based on the proposed modular system design, we offer suggestions for further development and elaboration of infrastructure elements for cycle logistics. Second, by applying our approach as a case study to the city of Magdeburg, Germany, we could show that existing cycle logistics processes have ecological and economic advantages over motorized delivery traffic. In addition, we proved that these benefits could be further increased by implementing the nano-hub concept. %L 620 %K Lastenräder %K Mikro-Depots %K Nano-Depots %K cargo-bikes %K micro-hubs %K nano-hubs %R 10.2195/lj_proc_kania_en_202211_01 %U http://nbn-resolving.de/urn:nbn:de:0009-14-55891 %U http://dx.doi.org/10.2195/lj_proc_kania_en_202211_01Download
Bibtex
@Article{kania2022,
author = "Kania, Malte
and Rolf, Benjamin
and Assmann, Tom
and Zadek, Hartmut",
title = "The smaller, the better? Nano-hubs for cycle logistics as an urban-friendly alternative to micro-hubs",
journal = "Logistics Journal : Proceedings",
year = "2022",
volume = "2022",
number = "18",
keywords = "Lastenr{\"a}der; Mikro-Depots; Nano-Depots; cargo-bikes; micro-hubs; nano-hubs",
abstract = "Especially for last-mile delivery in dense urban areas, cargo-bikes have become a sustainable alternative to overcome motorized delivery vehicles' traffic and environmental disadvantages. However, as their capacity and range are lower compared to conventional delivery vehicles, there is a need for additional cargo-bike transshipment hubs near the respective delivery areas. While some parcel service providers show that they are successfully testing different concepts such as micro-hubs, several barriers prevent the implementation beyond pilot status. Hence, our work aimed to overcome these barriers by introducing nano-hubs as an urban-friendly alternative to micro-hubs. In particular, we proposed a modular design concept that enables the customization of transshipment hubs considering urban planning restrictions and logistical processes. Further, we aimed to prove that the nano-hub approach also has economic advantages compared to previous cycle logistics processes. For this, we first developed nano-hub-modules on a conceptual level following the methodological approach for product development according to VDI 2221. We then implemented a simulation model to compare different (cycle) logistics processes with regard to their sustainability and operational effort. The findings of our work are twofold. First, based on the proposed modular system design, we offer suggestions for further development and elaboration of infrastructure elements for cycle logistics. Second, by applying our approach as a case study to the city of Magdeburg, Germany, we could show that existing cycle logistics processes have ecological and economic advantages over motorized delivery traffic. In addition, we proved that these benefits could be further increased by implementing the nano-hub concept.",
issn = "2192-9084",
doi = "10.2195/lj_proc_kania_en_202211_01",
url = "http://nbn-resolving.de/urn:nbn:de:0009-14-55891"
}
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TY - JOUR AU - Kania, Malte AU - Rolf, Benjamin AU - Assmann, Tom AU - Zadek, Hartmut PY - 2022 DA - 2022// TI - The smaller, the better? Nano-hubs for cycle logistics as an urban-friendly alternative to micro-hubs JO - Logistics Journal : Proceedings VL - 2022 IS - 18 KW - Lastenräder KW - Mikro-Depots KW - Nano-Depots KW - cargo-bikes KW - micro-hubs KW - nano-hubs AB - Especially for last-mile delivery in dense urban areas, cargo-bikes have become a sustainable alternative to overcome motorized delivery vehicles' traffic and environmental disadvantages. However, as their capacity and range are lower compared to conventional delivery vehicles, there is a need for additional cargo-bike transshipment hubs near the respective delivery areas. While some parcel service providers show that they are successfully testing different concepts such as micro-hubs, several barriers prevent the implementation beyond pilot status. Hence, our work aimed to overcome these barriers by introducing nano-hubs as an urban-friendly alternative to micro-hubs. In particular, we proposed a modular design concept that enables the customization of transshipment hubs considering urban planning restrictions and logistical processes. Further, we aimed to prove that the nano-hub approach also has economic advantages compared to previous cycle logistics processes. For this, we first developed nano-hub-modules on a conceptual level following the methodological approach for product development according to VDI 2221. We then implemented a simulation model to compare different (cycle) logistics processes with regard to their sustainability and operational effort. The findings of our work are twofold. First, based on the proposed modular system design, we offer suggestions for further development and elaboration of infrastructure elements for cycle logistics. Second, by applying our approach as a case study to the city of Magdeburg, Germany, we could show that existing cycle logistics processes have ecological and economic advantages over motorized delivery traffic. In addition, we proved that these benefits could be further increased by implementing the nano-hub concept. SN - 2192-9084 UR - http://nbn-resolving.de/urn:nbn:de:0009-14-55891 DO - 10.2195/lj_proc_kania_en_202211_01 ID - kania2022 ER -Download
Wordbib
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ISI
PT Journal AU Kania, M Rolf, B Assmann, T Zadek, H TI The smaller, the better? Nano-hubs for cycle logistics as an urban-friendly alternative to micro-hubs SO Logistics Journal : Proceedings PY 2022 VL 2022 IS 18 DI 10.2195/lj_proc_kania_en_202211_01 DE Lastenräder; Mikro-Depots; Nano-Depots; cargo-bikes; micro-hubs; nano-hubs AB Especially for last-mile delivery in dense urban areas, cargo-bikes have become a sustainable alternative to overcome motorized delivery vehicles' traffic and environmental disadvantages. However, as their capacity and range are lower compared to conventional delivery vehicles, there is a need for additional cargo-bike transshipment hubs near the respective delivery areas. While some parcel service providers show that they are successfully testing different concepts such as micro-hubs, several barriers prevent the implementation beyond pilot status. Hence, our work aimed to overcome these barriers by introducing nano-hubs as an urban-friendly alternative to micro-hubs. In particular, we proposed a modular design concept that enables the customization of transshipment hubs considering urban planning restrictions and logistical processes. Further, we aimed to prove that the nano-hub approach also has economic advantages compared to previous cycle logistics processes. For this, we first developed nano-hub-modules on a conceptual level following the methodological approach for product development according to VDI 2221. We then implemented a simulation model to compare different (cycle) logistics processes with regard to their sustainability and operational effort. The findings of our work are twofold. First, based on the proposed modular system design, we offer suggestions for further development and elaboration of infrastructure elements for cycle logistics. Second, by applying our approach as a case study to the city of Magdeburg, Germany, we could show that existing cycle logistics processes have ecological and economic advantages over motorized delivery traffic. In addition, we proved that these benefits could be further increased by implementing the nano-hub concept. ERDownload
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Full Metadata
| Bibliographic Citation | Logistics Journal : referierte Veröffentlichungen, Vol. 2022, Iss. 18 |
|---|---|
| Title |
The smaller, the better? Nano-hubs for cycle logistics as an urban-friendly alternative to micro-hubs (eng) |
| Author | Malte Kania, Benjamin Rolf, Tom Assmann, Hartmut Zadek |
| Language | eng |
| Abstract | Especially for last-mile delivery in dense urban areas, cargo-bikes have become a sustainable alternative to overcome motorized delivery vehicles' traffic and environmental disadvantages. However, as their capacity and range are lower compared to conventional delivery vehicles, there is a need for additional cargo-bike transshipment hubs near the respective delivery areas. While some parcel service providers show that they are successfully testing different concepts such as micro-hubs, several barriers prevent the implementation beyond pilot status. Hence, our work aimed to overcome these barriers by introducing nano-hubs as an urban-friendly alternative to micro-hubs. In particular, we proposed a modular design concept that enables the customization of transshipment hubs considering urban planning restrictions and logistical processes. Further, we aimed to prove that the nano-hub approach also has economic advantages compared to previous cycle logistics processes. For this, we first developed nano-hub-modules on a conceptual level following the methodological approach for product development according to VDI 2221. We then implemented a simulation model to compare different (cycle) logistics processes with regard to their sustainability and operational effort. The findings of our work are twofold. First, based on the proposed modular system design, we offer suggestions for further development and elaboration of infrastructure elements for cycle logistics. Second, by applying our approach as a case study to the city of Magdeburg, Germany, we could show that existing cycle logistics processes have ecological and economic advantages over motorized delivery traffic. In addition, we proved that these benefits could be further increased by implementing the nano-hub concept. Vor allem in urbanen Gebieten stellt der Einsatz von Lastenrädern für die Sendungszustellung auf der letzten Meile einen vielversprechenden Ansatz dar, um die verkehrlichen und ökologischen Nachteile konventioneller Lieferfahrzeuge zu adressieren. Da Lastenräder jedoch geringere Ladevolumina und Reichweiten aufweisen, entsteht ein Bedarf an zusätzlichen Umschlagsknoten in unmittelbarer Nähe der jeweiligen Zustellgebiete. Entsprechende Konzepte wie Mikro-Depots werden bereits von einzelnen Paket-Dienstleistern erprobt, können sich jedoch aufgrund diverser Herausforderungen nicht über den Pilotstatus hinaus etablieren. Im Rahmen der Arbeit werden daher Nano-Depots als stadtverträgliche Alternative zu Mikro-Depots vorgestellt. Speziell wird ein Infrastrukturkonzept für Lastenräder entwickelt, welches sich durch eine modulare Bauweise an verschiedene städte-bauliche Einschränkungen und logistische Abläufe anpassen lässt. Darüber hinaus wird gezeigt, dass der Nano-Depot-Ansatz auch wirtschaftliche Vorteile gegenüber bestehenden Radlogistik-Prozessen aufweist. Auf Basis des methodischen Vorgehens zur Produktentwicklung nach VDI 2221 werden dafür zunächst einzelne Nano-Depot-Module auf konzeptioneller Ebene erarbeitet. Anschließend findet die Implementierung eines Simulationsmodells zum Vergleich der Nachhaltigkeit und Wirtschaftlichkeit verschiedener (Rad-)Logistikprozesse statt. Auf Grundlage des entwickelten Modulbaukastens bietet die Arbeit Anregungen für die weitere Entwicklung und Ausarbeitung von Radlogistikanlagen. Durch die Anwendung des entwickelten Simulationstools im Rahmen einer Fallstudie lässt sich darüber hinaus zeigen, dass herkömmliche Radlogistikprozesse sowohl ökologische als auch ökonomische Vorteile gegenüber dem motorisierten Lieferverkehr aufweisen, wobei sich letztere durch die Umsetzung des neuartigen Nano-Depot-Konzepts weiter ausweiten lassen. |
| Subject | Lastenräder, Mikro-Depots, Nano-Depots, cargo-bikes, micro-hubs, nano-hubs |
| DDC | 620 |
| Rights | fDPPL |
| URN: | urn:nbn:de:0009-14-55891 |
| DOI | https://doi.org/10.2195/lj_proc_kania_en_202211_01 |