EVACUATION SIMULATION WITH LIMITED CAPACITY SINKS - An Evolutionary Approach to Solve the Shelter Allocation and Capacity Assignment Problem in a Multi-agent Evacuation Simulation

Gunnar Flötteröd, Gregor Lämmel

2010

Abstract

We heuristically solve an evacuation problem with limited capacity shelters. An evolutionary learning algorithm is developed for the combined route- and shelter-assignment problem. It is complemented with a heuristic method for the fair minimization of shelter capacities. Different behavioral assumptions “fair” vs. “globally optimal”) are investigated. The proposed approaches are discussed in the context of a real-world tsunami evacuation problem.

References

1. Cetin, N., Burri, A., and Nagel, K. (2003). A large-scale agent-based traffic microsimulation based on queue model. In Proceedings of the 3rd Swiss Transport Research Conference, Monte Verita/Ascona, Switzerland.
2. Chalmet, L., Francis, R., and Saunders, P. (1982). Network models for building evacuation. Management Science, 28:86-105.
3. Ford, L. and Fulkerson, D. (1962). Flows in Networks. Princeton University Press.
4. Gawron, C. (1998). An iterative algorithm to determine the dynamic user equilibrium in a traffic simulation model. International Journal of Modern Physics C, 9(3):393-407.
5. Jarvis, J. and Ratliff, H. (1982). Some equivalent objectives for dynamic network flow problems. Management Science, 28:106-108.
6. Lämmel, G. and Flö tterö d, G. (2009). Towards system optimum: Finding optimal routing strategies in timetependent networks for large-scale evacuation problems. volume 5803 of LNCS (LNAI), pages 532-539, Berlin Heidelberg. Springer.
7. MATSim (accessed 2010). http://www.matsim.org.
8. Nash, J. (1951). Non-cooperative games. Annals of Mathematics, 54(2):286-295.
9. Peeta, S. and Mahmassani, H. (1995). System optimal and user equilibrium time-dependent traffic assignment in congested networks. Annals of Operations Research, 60:81-113.
10. Peng, L. (2006). A Dynamic Network Flow Optimization for Large-scale Emergency Evacuation. PhD thesis, City University of Hong Kong.
11. Sherali, H., Carter, T., and Hobeika, A. (1991). A locationallocation model and algorithm for evacuation planning under hurricane/flood conditions. Transportation Research Part B: Methodological, 25(6):439 - 452.

Paper Citation

in Harvard Style

Flötteröd G. and Lämmel G. (2010). EVACUATION SIMULATION WITH LIMITED CAPACITY SINKS - An Evolutionary Approach to Solve the Shelter Allocation and Capacity Assignment Problem in a Multi-agent Evacuation Simulation . In Proceedings of the International Conference on Evolutionary Computation - Volume 1: ICEC, (IJCCI 2010) ISBN 978-989-8425-31-7, pages 249-254. DOI: 10.5220/0003086302490254

in Bibtex Style

@conference{icec10,
author={Gunnar Flötteröd and Gregor Lämmel},
title={EVACUATION SIMULATION WITH LIMITED CAPACITY SINKS - An Evolutionary Approach to Solve the Shelter Allocation and Capacity Assignment Problem in a Multi-agent Evacuation Simulation},
booktitle={Proceedings of the International Conference on Evolutionary Computation - Volume 1: ICEC, (IJCCI 2010)},
year={2010},
pages={249-254},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0003086302490254},
isbn={978-989-8425-31-7},
}

in EndNote Style

TY - CONF
JO - Proceedings of the International Conference on Evolutionary Computation - Volume 1: ICEC, (IJCCI 2010)
TI - EVACUATION SIMULATION WITH LIMITED CAPACITY SINKS - An Evolutionary Approach to Solve the Shelter Allocation and Capacity Assignment Problem in a Multi-agent Evacuation Simulation
SN - 978-989-8425-31-7
AU - Flötteröd G.
AU - Lämmel G.
PY - 2010
SP - 249
EP - 254
DO - 10.5220/0003086302490254