Towards Sustainable Transport: A Strategic Decision Support System for Urban Logistics Operations

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Authors

External Research Organisations

  • University of Applied Sciences and Arts Hannover (HsH)
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Details

Original languageEnglish
Title of host publicationInnovation Through Information Systems
Subtitle of host publicationA Collection of Latest Research on Domain Issues
EditorsFrederik Ahlemann, Reinhard Schütte, Stefan Stieglitz
PublisherSpringer Science and Business Media Deutschland GmbH
Pages367-381
Number of pages15
Volume1
ISBN (electronic)978-3-030-86790-4
ISBN (print)9783030867898
Publication statusPublished - 16 Oct 2021
Event16th International Conference on Business Information Systems Engineering, WI 2021 -
Duration: 9 Mar 202111 Mar 2021

Publication series

NameLecture Notes in Information Systems and Organisation
Volume46
ISSN (Print)2195-4968
ISSN (electronic)2195-4976

Abstract

Global urbanization for decades has led to unprecedented levels and growing demands for urban logistics. Thus, problems such as congestion, environmental noise, and urban sprawl are growing. As a result, many cities face problems of optimal decision-making regarding green and sustainable smart transportation systems and infrastructures. However, various possible measures and logistics concepts are available to improve urban logistics, while effects are unclear and difficult to predict. To meet the growing need for future-oriented decisions by city authorities, we developed a decision support system prototype that allows a strategic simulation-based evaluation of different logistics concepts regarding defined targets, e.g., pollutant emissions, traffic flow, space requirements, or economic efficiency on a city district level. An expert system for the strategic evaluation of logistics concepts on a city district level is integrated to achieve transferability and scalability.

Keywords

    Data-driven government, Decision support system, Expert system, Liveable city, Urban logistics

ASJC Scopus subject areas

Sustainable Development Goals

Cite this

Towards Sustainable Transport: A Strategic Decision Support System for Urban Logistics Operations. / Heumann, Maximilian; Pump, Richard; Breitner, Michael H. et al.
Innovation Through Information Systems: A Collection of Latest Research on Domain Issues. ed. / Frederik Ahlemann; Reinhard Schütte; Stefan Stieglitz. Vol. 1 Springer Science and Business Media Deutschland GmbH, 2021. p. 367-381 (Lecture Notes in Information Systems and Organisation; Vol. 46).

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Heumann, M, Pump, R, Breitner, MH, Koschel, A & Ahlers, V 2021, Towards Sustainable Transport: A Strategic Decision Support System for Urban Logistics Operations. in F Ahlemann, R Schütte & S Stieglitz (eds), Innovation Through Information Systems: A Collection of Latest Research on Domain Issues. vol. 1, Lecture Notes in Information Systems and Organisation, vol. 46, Springer Science and Business Media Deutschland GmbH, pp. 367-381, 16th International Conference on Business Information Systems Engineering, WI 2021, 9 Mar 2021. https://doi.org/10.1007/978-3-030-86790-4_25
Heumann, M., Pump, R., Breitner, M. H., Koschel, A., & Ahlers, V. (2021). Towards Sustainable Transport: A Strategic Decision Support System for Urban Logistics Operations. In F. Ahlemann, R. Schütte, & S. Stieglitz (Eds.), Innovation Through Information Systems: A Collection of Latest Research on Domain Issues (Vol. 1, pp. 367-381). (Lecture Notes in Information Systems and Organisation; Vol. 46). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-3-030-86790-4_25
Heumann M, Pump R, Breitner MH, Koschel A, Ahlers V. Towards Sustainable Transport: A Strategic Decision Support System for Urban Logistics Operations. In Ahlemann F, Schütte R, Stieglitz S, editors, Innovation Through Information Systems: A Collection of Latest Research on Domain Issues. Vol. 1. Springer Science and Business Media Deutschland GmbH. 2021. p. 367-381. (Lecture Notes in Information Systems and Organisation). doi: 10.1007/978-3-030-86790-4_25
Heumann, Maximilian ; Pump, Richard ; Breitner, Michael H. et al. / Towards Sustainable Transport : A Strategic Decision Support System for Urban Logistics Operations. Innovation Through Information Systems: A Collection of Latest Research on Domain Issues. editor / Frederik Ahlemann ; Reinhard Schütte ; Stefan Stieglitz. Vol. 1 Springer Science and Business Media Deutschland GmbH, 2021. pp. 367-381 (Lecture Notes in Information Systems and Organisation).
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abstract = "Global urbanization for decades has led to unprecedented levels and growing demands for urban logistics. Thus, problems such as congestion, environmental noise, and urban sprawl are growing. As a result, many cities face problems of optimal decision-making regarding green and sustainable smart transportation systems and infrastructures. However, various possible measures and logistics concepts are available to improve urban logistics, while effects are unclear and difficult to predict. To meet the growing need for future-oriented decisions by city authorities, we developed a decision support system prototype that allows a strategic simulation-based evaluation of different logistics concepts regarding defined targets, e.g., pollutant emissions, traffic flow, space requirements, or economic efficiency on a city district level. An expert system for the strategic evaluation of logistics concepts on a city district level is integrated to achieve transferability and scalability.",
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AU - Heumann, Maximilian

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AU - Koschel, Arne

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N1 - Funding Information: In a more recent review, Dolati et al. further emphasize the importance of decision support for city authorities in the context of urban logistics and point out the relevance of stakeholder involvement [10]. The initiative “Urban Transport Roadmaps” funded by the European Commission, developed a web-based DSS for urban transport. The project group implemented an informative platform for city authorities to evaluate future mobility scenarios in urban areas in a time horizon up to 2030, allowing the comparison of different urban structures and a selection of measures for urban transport. The quantified effects of various measures (e.g. car sharing, prioritized public transport) are based on modeling future macroeconomic trends. The project parties do not consider any microscale traffic effects of logistics concepts in city districts. The portfolio of measures is limited to regulatory actions and mobility services. Their web-tool thereby aims at a different use-case, showing detailed traffic development predictions for entire cities instead of predicted impacts of novel logistics concepts on traffic on a city district scale [11]. Funding Information: The first step in creating the DSS was creating a database containing the KPI impacts of logistics concepts on the representative district types. To create the database, three steps were executed within the collaborative project USEfUL: (1) the identification of projects and concepts for sustainable urban logistics, (2) the definition of simulated logistics concepts and scenarios and (3) the acqusisition of domain knowledge through expert assisted simulations. The process was supported by experts from the automotive sector, parcel delivery services, and urban transport planning. Figure 2 shows the process from data collection to results analysis.

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