Marvin Kastner, M.Sc.

Adresse

Technische Universität Hamburg
Institut für Maritime Logistik
Am Schwarzenberg-Campus 4 (D)
21073 Hamburg

 

Kontaktdaten & Profile

Büro: Gebäude D Raum 5.007
Tel.: +49 40 42878 4793
E-Mail: marvin.kastner(at)tuhh(dot)de
ORCiD: 0000-0001-8289-2943
LinkedIn: https://www.linkedin.com/in/marvin-kastner/
ResearchGate: https://www.researchgate.net/profile/Marvin-Kastner
Google scholar: https://scholar.google.de/citations?user=lAR-oVAAAAAJ&hl=de&oi=ao
Scopus: https://www.scopus.com/authid/detail.uri?authorId=57221938031



Forschungsschwerpunkte

  • simulationsgestütztes Planen von Container-Terminals
  • Optimierung der Ablaufplanung im Yard von Container-Terminals
  • technologiegestützte Verbesserung der maritimen Sicherheit
  • Maschinelles Lernen in der maritimen Logistik
  • Optimierung multivariater Black-box Funktionen

Vorträge und Workshops (Auszug)

  • 26.09.2024 ein Vortrag auf der Hamburg International Conference of Logistics (HICL): "Hinterland rail connectivity of seaport container terminals" mit den Koautoren Owais Ahmed Shaikh, Yasser Shaikh und Anish Sundar Gowthaman
  • 06.05.2024 ein Workshop an der Graduiertenakademie der TUHH: "Einführung in Jupyter Notebooks" [mehr]
  • 25.01.2023 ein Vortrag auf dem 7. Suderburger Logistik-Forum: "KI-unterstützte Planung von Güterumschlaganlagen am Beispiel von Containerterminals"
  • 15.09.2022 ein Vortrag bei den MLE-Days 2022: "Synthetische Daten für das Reinforcement-Learning bei Container-Terminal-Steuerungen"
  • 28.06.2022 ein Workshop an der Graduiertenakademie der TUHH: "Einführung in Jupyter Notebooks" [mehr]
  • 02.07.2021 ein Workshop bei den MLE-Days 2021: "Methoden des Maschinellen Lernens in der Maritimen Logistik" [zip]
  • 16.03.2021 ein Workshop an der Graduiertenakademie der TUHH: "Einführung in Jupyter Notebooks" [mehr]
  • 30.11.2020 im Rahmen der Vortragsreihe "Train Your Engineering Network" der MLE-Initiative: "How to Talk About Machine Learning with Jupyter Notebooks" [mehr]
  • 22.11.2019 auf der DISRUPT NOW! AI for Hamburg: "Künstliche Intelligenz in der maritimen Wirtschaft" [mehr]
  • 29.10.2019 im Rahmen der forschungsbörse: "Maritime Logistik - Ein Rundumschlag" [mehr]
  • 23.10.2019 bei der Open Access Week 2019 an der TUHH: "Datenanalyse - Offener Workshop: Daten auswerten und visualisieren mit Jupyter Notebooks" [mehr] [git]
  • 16.11.2018 beim GI DevCamp Hamburg: "Mobility Research and GDPR"
  • 27.09.2018 beim SGKV AK zum Thema Lkw-Ankünfte: "Prognoseverfahren und neuronale Netze – Was ist möglich?"


Veröffentlichungen (Auszug)

2024

[191075]
Title: On Estimating the Required Yard Capacity for Container Terminals. <em>Dynamics in Logistics</em>
Written by: Édes, Luc and Kastner, Marvin and Jahn, Carlos
in: (2024).
Volume: Number:
on pages: 171-182
Chapter:
Editor: In Freitag, Michael and Kinra, Aseem and Kotzab, Herbert and Megow, Nicole (Eds.)
Publisher: Springer, Cham and Springer Nature Switzerland:
Series:
Address: Cham
Edition:
ISBN: 978-3-031-56826-8
how published:
Organization:
School:
Institution:
Type:
DOI: 10.1007/978-3-031-56826-8_13
URL: https://link.springer.com/chapter/10.1007/978-3-031-56826-8_13
ARXIVID:
PMID:

[www]

Note: conflowgen

Abstract: Vessel delays and increased terminal call sizes negatively impact the ability to properly plan daily operations at seaport container terminals. Such traffic patterns lead to, among others, infrequent peak loads at the seaside of container terminals, complicating terminal operations. Thus, relying on annual or monthly statistics fails to account for these day-to-day fluctuations. When container terminals are planned, be it a greenfield or brownfield terminal, these variations in operations need to be accounted for. The traditional formula-based approach to design terminals uses annual statistics. In this study, it is first used to produce estimates for the required yard capacity for three existing exemplary container terminals. These are then compared to the results of numerical experiments using the synthetic container flow generator ConFlowGen. The findings reveal that yard capacity requirements fluctuate considerably depending on the timing of vessel arrivals and their call sizes. This dynamic modeling proved particularly beneficial for planning gateway traffic, offering more accurate storage capacity predictions. Suggestions are made for how to further develop ConFlowGen for handling transshipment traffic better in future versions.

2023
[191075]
Title: On Estimating the Required Yard Capacity for Container Terminals. <em>Dynamics in Logistics</em>
Written by: Édes, Luc and Kastner, Marvin and Jahn, Carlos
in: (2024).
Volume: Number:
on pages: 171-182
Chapter:
Editor: In Freitag, Michael and Kinra, Aseem and Kotzab, Herbert and Megow, Nicole (Eds.)
Publisher: Springer, Cham and Springer Nature Switzerland:
Series:
Address: Cham
Edition:
ISBN: 978-3-031-56826-8
how published:
Organization:
School:
Institution:
Type:
DOI: 10.1007/978-3-031-56826-8_13
URL: https://link.springer.com/chapter/10.1007/978-3-031-56826-8_13
ARXIVID:
PMID:

[www]

Note: conflowgen

Abstract: Vessel delays and increased terminal call sizes negatively impact the ability to properly plan daily operations at seaport container terminals. Such traffic patterns lead to, among others, infrequent peak loads at the seaside of container terminals, complicating terminal operations. Thus, relying on annual or monthly statistics fails to account for these day-to-day fluctuations. When container terminals are planned, be it a greenfield or brownfield terminal, these variations in operations need to be accounted for. The traditional formula-based approach to design terminals uses annual statistics. In this study, it is first used to produce estimates for the required yard capacity for three existing exemplary container terminals. These are then compared to the results of numerical experiments using the synthetic container flow generator ConFlowGen. The findings reveal that yard capacity requirements fluctuate considerably depending on the timing of vessel arrivals and their call sizes. This dynamic modeling proved particularly beneficial for planning gateway traffic, offering more accurate storage capacity predictions. Suggestions are made for how to further develop ConFlowGen for handling transshipment traffic better in future versions.

2022
[191075]
Title: On Estimating the Required Yard Capacity for Container Terminals. <em>Dynamics in Logistics</em>
Written by: Édes, Luc and Kastner, Marvin and Jahn, Carlos
in: (2024).
Volume: Number:
on pages: 171-182
Chapter:
Editor: In Freitag, Michael and Kinra, Aseem and Kotzab, Herbert and Megow, Nicole (Eds.)
Publisher: Springer, Cham and Springer Nature Switzerland:
Series:
Address: Cham
Edition:
ISBN: 978-3-031-56826-8
how published:
Organization:
School:
Institution:
Type:
DOI: 10.1007/978-3-031-56826-8_13
URL: https://link.springer.com/chapter/10.1007/978-3-031-56826-8_13
ARXIVID:
PMID:

[www]

Note: conflowgen

Abstract: Vessel delays and increased terminal call sizes negatively impact the ability to properly plan daily operations at seaport container terminals. Such traffic patterns lead to, among others, infrequent peak loads at the seaside of container terminals, complicating terminal operations. Thus, relying on annual or monthly statistics fails to account for these day-to-day fluctuations. When container terminals are planned, be it a greenfield or brownfield terminal, these variations in operations need to be accounted for. The traditional formula-based approach to design terminals uses annual statistics. In this study, it is first used to produce estimates for the required yard capacity for three existing exemplary container terminals. These are then compared to the results of numerical experiments using the synthetic container flow generator ConFlowGen. The findings reveal that yard capacity requirements fluctuate considerably depending on the timing of vessel arrivals and their call sizes. This dynamic modeling proved particularly beneficial for planning gateway traffic, offering more accurate storage capacity predictions. Suggestions are made for how to further develop ConFlowGen for handling transshipment traffic better in future versions.

2021
[191075]
Title: On Estimating the Required Yard Capacity for Container Terminals. <em>Dynamics in Logistics</em>
Written by: Édes, Luc and Kastner, Marvin and Jahn, Carlos
in: (2024).
Volume: Number:
on pages: 171-182
Chapter:
Editor: In Freitag, Michael and Kinra, Aseem and Kotzab, Herbert and Megow, Nicole (Eds.)
Publisher: Springer, Cham and Springer Nature Switzerland:
Series:
Address: Cham
Edition:
ISBN: 978-3-031-56826-8
how published:
Organization:
School:
Institution:
Type:
DOI: 10.1007/978-3-031-56826-8_13
URL: https://link.springer.com/chapter/10.1007/978-3-031-56826-8_13
ARXIVID:
PMID:

[www]

Note: conflowgen

Abstract: Vessel delays and increased terminal call sizes negatively impact the ability to properly plan daily operations at seaport container terminals. Such traffic patterns lead to, among others, infrequent peak loads at the seaside of container terminals, complicating terminal operations. Thus, relying on annual or monthly statistics fails to account for these day-to-day fluctuations. When container terminals are planned, be it a greenfield or brownfield terminal, these variations in operations need to be accounted for. The traditional formula-based approach to design terminals uses annual statistics. In this study, it is first used to produce estimates for the required yard capacity for three existing exemplary container terminals. These are then compared to the results of numerical experiments using the synthetic container flow generator ConFlowGen. The findings reveal that yard capacity requirements fluctuate considerably depending on the timing of vessel arrivals and their call sizes. This dynamic modeling proved particularly beneficial for planning gateway traffic, offering more accurate storage capacity predictions. Suggestions are made for how to further develop ConFlowGen for handling transshipment traffic better in future versions.

2020
[191075]
Title: On Estimating the Required Yard Capacity for Container Terminals. <em>Dynamics in Logistics</em>
Written by: Édes, Luc and Kastner, Marvin and Jahn, Carlos
in: (2024).
Volume: Number:
on pages: 171-182
Chapter:
Editor: In Freitag, Michael and Kinra, Aseem and Kotzab, Herbert and Megow, Nicole (Eds.)
Publisher: Springer, Cham and Springer Nature Switzerland:
Series:
Address: Cham
Edition:
ISBN: 978-3-031-56826-8
how published:
Organization:
School:
Institution:
Type:
DOI: 10.1007/978-3-031-56826-8_13
URL: https://link.springer.com/chapter/10.1007/978-3-031-56826-8_13
ARXIVID:
PMID:

[www]

Note: conflowgen

Abstract: Vessel delays and increased terminal call sizes negatively impact the ability to properly plan daily operations at seaport container terminals. Such traffic patterns lead to, among others, infrequent peak loads at the seaside of container terminals, complicating terminal operations. Thus, relying on annual or monthly statistics fails to account for these day-to-day fluctuations. When container terminals are planned, be it a greenfield or brownfield terminal, these variations in operations need to be accounted for. The traditional formula-based approach to design terminals uses annual statistics. In this study, it is first used to produce estimates for the required yard capacity for three existing exemplary container terminals. These are then compared to the results of numerical experiments using the synthetic container flow generator ConFlowGen. The findings reveal that yard capacity requirements fluctuate considerably depending on the timing of vessel arrivals and their call sizes. This dynamic modeling proved particularly beneficial for planning gateway traffic, offering more accurate storage capacity predictions. Suggestions are made for how to further develop ConFlowGen for handling transshipment traffic better in future versions.

2019
[191075]
Title: On Estimating the Required Yard Capacity for Container Terminals. <em>Dynamics in Logistics</em>
Written by: Édes, Luc and Kastner, Marvin and Jahn, Carlos
in: (2024).
Volume: Number:
on pages: 171-182
Chapter:
Editor: In Freitag, Michael and Kinra, Aseem and Kotzab, Herbert and Megow, Nicole (Eds.)
Publisher: Springer, Cham and Springer Nature Switzerland:
Series:
Address: Cham
Edition:
ISBN: 978-3-031-56826-8
how published:
Organization:
School:
Institution:
Type:
DOI: 10.1007/978-3-031-56826-8_13
URL: https://link.springer.com/chapter/10.1007/978-3-031-56826-8_13
ARXIVID:
PMID:

[www]

Note: conflowgen

Abstract: Vessel delays and increased terminal call sizes negatively impact the ability to properly plan daily operations at seaport container terminals. Such traffic patterns lead to, among others, infrequent peak loads at the seaside of container terminals, complicating terminal operations. Thus, relying on annual or monthly statistics fails to account for these day-to-day fluctuations. When container terminals are planned, be it a greenfield or brownfield terminal, these variations in operations need to be accounted for. The traditional formula-based approach to design terminals uses annual statistics. In this study, it is first used to produce estimates for the required yard capacity for three existing exemplary container terminals. These are then compared to the results of numerical experiments using the synthetic container flow generator ConFlowGen. The findings reveal that yard capacity requirements fluctuate considerably depending on the timing of vessel arrivals and their call sizes. This dynamic modeling proved particularly beneficial for planning gateway traffic, offering more accurate storage capacity predictions. Suggestions are made for how to further develop ConFlowGen for handling transshipment traffic better in future versions.