Supply Chain Management

Forschungsschwerpunkte / Research Topics

Maritime Logistics

This research project addresses the optimal routing and scheduling of cargo ships as well as the optimization of cargo handling processes at seaports. We develop optimization models and solution methods to obtain high quality solutions for complex optimization problems. These solutions support a best possible utilization of ship capacity and terminal resources like cranes and berth space.


Selected Publications and Talks:

  • Meisel, F.; Fagerholt, K.: Scheduling two-way Ship Traffic for the Kiel Canal: Model, Extensions and a Matheuristic, Computers & Operations Research 106 (2019), 119-132, Link to paper, Link to test instances
  • Bierwirth, C.; Meisel, F.: A follow-up Survey of Berth Allocation and Quay Crane Scheduling Problems in Container Terminals, European Journal of Operational Research 244 (2015), 675-689, Link
  • Meisel, F.; Bierwirth, C.: A Framework for Integrated Berth Allocation and Crane Operations Planning in Seaport Container Terminals, Transportation Science 47 (2013), 131-147, Link


Green Logistics

This research project addresses the environmental impact of freight transportation. We develop network design models and routing algorithms for freight, which consider traditional measures, like cost or time, and greenhouse gas emissions. Our solutions support the research in the field of green logistics and show trade-offs between traditional and emission-oriented objectives.


Selected Publications and Talks:

  • Heinold, A., Meisel, F.: Emission Rates of Intermodal Rail/Road and Road-only Transportation in Europe: A Comprehensive Simulation Study, Transportation Research Part D 65 (2018), 421-437, Link
  • Kirschstein, T.; Meisel, F.: GHG-emission models for assessing the eco-friendliness of road and rail freight transports, Transportation Research Part B 73 (2015), 13-33, Link
  • Bierwirth, C.; Kirschstein, T.; Meisel, F.: On Transport Service Selection in Intermodal Rail/Road Distribution Networks, BuR - Business Research 5 (2012), 198-219, Link

Mobility Concepts

Recent societal trends and technological advances allow for alternative ways of transporting people and freight. The aim of this research project is to evaluate the benefit of such mobility concepts based on computer experiments in which we employ optimization methods in simulated environments. This research project consists of two streams, one dealing with the integration of different sharing economy concepts and the other dealing with the coordination of autonomous public transport systems.

Mobility Concepts

Selected Publications and Talks:

  • Behrend, M.; Meisel, F.: The integration of item-sharing and crowdshipping: Can collaborative consumption be pushed by delivering through the crowd?, Transportation Research Part B 111 (2018), 227-243, Link
  • Behrend, M.; Meisel, F.: Sharing Economy im Kontext urbaner Mobilität. In: Proff H., Fojcik T. (Hrsg.) Innovative Produkte und Dienstleistungen in der Mobilität. Springer Gabler, Wiesbaden, 2017, 335-346, Link
  • Behrend, M., Meisel, F.: Integrating Item-sharing and Crowdshipping as 3-Dimensional Assignment Problem, Annual International Conference of the German Operations Research Society (GOR), Berlin, 07.09.2017.
  • Behrend, M., Meisel, F.: Transportation Planning in a Sharing Economy Setting, 28th European Conference on Operational Research, Poznán (Poland), 04.07.2016.

Scheduling and Routing of Multi-Skilled Workforce

The efficient workforce management is crucial for the prosperity of many service-oriented companies. The importance of an effective workforce planning is increasing by the fact that the companies often provide complex services requiring specialists with different qualifications and experience levels. In addition, the services have to be provided at geographically dispersed customer locations. This project adresses the problem of creating and routing of multi-skilled teams. The aim of this project is to develop models and algorithms for an effective management and scheduling of workforce and improvement of services offered to customers.

workforce scheduling

Selected Publications and Talks:

  • Anoshkina, Y. and Meisel, F.: Sequential vs. Integrated Solution of the Combined Manpower Teaming and Routing Problem, Annual International Conference of the German Operations Research Society (GOR), Berlin, 06.09.2017
  • Anoshkina, Y. and Meisel, F.: Combined Manpower Teaming and Routing Problem , 28th European Conference on Operational Research, Poznán (Poland), 04.07.2016
  • Talarico, L.; Meisel, F.; Sörensen, K.: Ambulance Routing for Disaster Response with Patient Groups, Computers & Operations Research 56 (2015), 120-133, Link
  • Mankowska, D.; Meisel, F.; Bierwirth, C.: The Home Health Care Routing and Scheduling Problem with Interdependent Services, Health Care Management Science 17 (2014), 15-30, Link


Supply Network Design and Supplier Development

This project investigates location decisions, capacity decisions, and supplier selection decisions for complex production-distribution networks. We consider in particular, how lead time restrictions drive the design of supply networks. Furthermore, we investigate how to improve supplier capabilities by initiating supplier development projects.


Selected Publications and Talks:

  • Meisel, F.; Glock, C.: Self-induced learning vs. project-based supplier development for production ramp-up with two supply options, International Journal of Production Economics 198 (2018), 60-69, Link
  • Meisel, F.; Rei, W.; Gendreau, M.; Bierwirth, C.: Designing Supply Networks under Maximum Customer Order Lead Times, IIE Transactions 48 (2016), 921937, Link to paperLink to benchmark instances
  • Meisel, F.; Bierwirth, C.: The Design of Make-to-Order Supply Networks under Uncertainties using Simulation and Optimisation, International Journal of Production Research 52 (2014), 6590-6607, Link