Scholarly record
TOWARDS A FRAMEWORK FOR SIMULATION-BASED EVALUATION OF PERSONAL DECISION SUPPORT SYSTEMS FOR FLOOD EVACUATION
Publication Impact Profile
Publication details
References30
Crooks, A., Castle, C., & Batty, M. (2008). Key challenges in agent-based modelling for geo-spatial simulation. Computers, Environment and Urban Systems, 32(6), 417-430.
Railsback, S. F., Lytinen, S. L., & Jackson, S. K. (2006). Agent-based simulation platforms: Review and development recommendations. Simulation, 82(9), 609-623.
Crooks, A. T., & Castle, C. J. (2012). The integration of agent-based modelling and geographical information for geospatial simulation. In Agent-based models of geographical systems (pp. 219-251). Springer Netherlands.
Yu, J., & Buyya, R. (2005). A taxonomy of workflow management systems for grid computing. Journal of Grid Computing, 3(3-4), 171-200. Section Geoinformatics
Zia, K., Farrahi, K., Riener, A., Ferscha, A. (2013). An agent-based parallel geo- simulation of urban mobility during city-scale evacuation. In Simulation, 89 (10), pp. 1184-1214.
Simonovic, S. P., & Ahmad, S. (2005). Computer-based model for flood evacuation emergency planning. Natural Hazards, 34(1), 25-51.
Mordvintsev, A., Krzhizhanovskaya, V.V., Lees, M., Sloot, P.M.A., 2012. Simulation of city evacuation coupled to flood dynamics. In: Proceedings of the 6th International Conference on Pedestrian and Evacuation Dynamics, ETH, Zurich, pp. 156–158.
S.R. Jamieson, J. Lhomme, G. Wright, B. Gouldby. A highly efficient 2D flood model with sub-element topography. Proceedings of the Institution of Civil Engineers. Water Management V. 165, November 2012, Issue WM10, p. 581–595.
V.V. Krzhizhanovskaya, N.B. Melnikova, A.M. Chirkin, S.V. Ivanov, A.V. Boukhanovsky, P.M.A. Sloot. Distributed simulation of city inundation by coupled surface and subsurface porous flow for urban flood decision support system. Procedia Computer Science, V. 18, pp. 1046-1056, 20 13.
Treiber, M., Hennecke, A., & Helbing, D. (2000). Congested traffic states in empirical observations and microscopic simulations. Physical Review E, 62(2), 1805.
Han, L. D., Yuan, F., Chin, S. M., & Hwang, H. (2006). Global optimization of emergency evacuation assignments. Interfaces, 36(6), 502-513.
Lewis, D.C. (1985), Transportation Planning for Hurricane Evacuations, ITE Journal, 55(8), pp 31-35.
K.V. Knyazkov, S.V. Kovalchuk, T.N. Tchurov, S.V. Maryin, A.V. Boukhanovsky “CLAVIRE: e-Science Infrastructure for Data- driven Computing”, Journal of Computational Science, vol. 3, n 6, 2012, pp. 504-510.
Boukhanovsky, A. V., & Ivanov, S. V. (2012). Urgent computing for operational storm surge forecasting in Saint-Petersburg. Procedia Computer Science, 9, 1704-1712.
Lämmel, G., & Flötteröd, G. (2009). Towards system optimum: Finding optimal routing strategies in time-dependent networks for large-scale evacuation problems. In KI 2009: Advances in Artificial Intelligence (pp. 532-539). Springer Berlin Heidelberg.
Crooks, A., Castle, C., & Batty, M. (2008). Key challenges in agent-based modelling for geo-spatial simulation. Computers, Environment and Urban Systems, 32(6), 417-430.
Railsback, S. F., Lytinen, S. L., & Jackson, S. K. (2006). Agent-based simulation platforms: Review and development recommendations. Simulation, 82(9), 609-623.
Crooks, A. T., & Castle, C. J. (2012). The integration of agent-based modelling and geographical information for geospatial simulation. In Agent-based models of geographical systems (pp. 219-251). Springer Netherlands.
Yu, J., & Buyya, R. (2005). A taxonomy of workflow management systems for grid computing. Journal of Grid Computing, 3(3-4), 171-200. Section Geoinformatics
Zia, K., Farrahi, K., Riener, A., Ferscha, A. (2013). An agent-based parallel geo- simulation of urban mobility during city-scale evacuation. In Simulation, 89 (10), pp. 1184-1214.
Simonovic, S. P., & Ahmad, S. (2005). Computer-based model for flood evacuation emergency planning. Natural Hazards, 34(1), 25-51.
Mordvintsev, A., Krzhizhanovskaya, V.V., Lees, M., Sloot, P.M.A., 2012. Simulation of city evacuation coupled to flood dynamics. In: Proceedings of the 6th International Conference on Pedestrian and Evacuation Dynamics, ETH, Zurich, pp. 156–158.
S.R. Jamieson, J. Lhomme, G. Wright, B. Gouldby. A highly efficient 2D flood model with sub-element topography. Proceedings of the Institution of Civil Engineers. Water Management V. 165, November 2012, Issue WM10, p. 581–595.
V.V. Krzhizhanovskaya, N.B. Melnikova, A.M. Chirkin, S.V. Ivanov, A.V. Boukhanovsky, P.M.A. Sloot. Distributed simulation of city inundation by coupled surface and subsurface porous flow for urban flood decision support system. Procedia Computer Science, V. 18, pp. 1046-1056, 20 13.
Treiber, M., Hennecke, A., & Helbing, D. (2000). Congested traffic states in empirical observations and microscopic simulations. Physical Review E, 62(2), 1805.
Han, L. D., Yuan, F., Chin, S. M., & Hwang, H. (2006). Global optimization of emergency evacuation assignments. Interfaces, 36(6), 502-513.
Lewis, D.C. (1985), Transportation Planning for Hurricane Evacuations, ITE Journal, 55(8), pp 31-35.
K.V. Knyazkov, S.V. Kovalchuk, T.N. Tchurov, S.V. Maryin, A.V. Boukhanovsky “CLAVIRE: e-Science Infrastructure for Data- driven Computing”, Journal of Computational Science, vol. 3, n 6, 2012, pp. 504-510.
Boukhanovsky, A. V., & Ivanov, S. V. (2012). Urgent computing for operational storm surge forecasting in Saint-Petersburg. Procedia Computer Science, 9, 1704-1712.
Lämmel, G., & Flötteröd, G. (2009). Towards system optimum: Finding optimal routing strategies in time-dependent networks for large-scale evacuation problems. In KI 2009: Advances in Artificial Intelligence (pp. 532-539). Springer Berlin Heidelberg.
Citing literature
Number of times cited according to Crossref: 2
View or Download full articleAccess options
SWS access login
Login as SWS Scientific CommitteeLogin as SWS Scientific PartnerLogin as SWS AuthorAuthors and approved SWS contributors will read and export their own linked papers after identity matching by SWS profile, email and SGEM GlobalID.
For librarian assistance: [email protected]
Purchase Instant Access
- Article can be downloaded after successful payment.
- Article may be used according to SWS library access terms.
- Article cannot be redistributed.

