The list below contains about 400 references.
We will put this list into the wiki as soon as it is available. Then, everyone will be able to add entries to the list. However, this should be done in Bibtex-Format. Entries that don't comply with the required format (i.e. produce errors with bibtex) will be removed since it will be too tedious to do a correction manually. The HTML-version (as below) will then compiled from the bibtex-source.
This is the same as the list below, however, in BibTex format. If you want to use the file with latex and bibtex, you can just save and rename (e.g. ped-net.bib) it (right mouse and download). Please remove the <html> and <header> tags in the downloaded file, that's it.
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[1]
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John Abrahams.
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A speed-concentration relation for bi-directional crowd movements
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T. Aoki.
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C. Behring, M. Bracho, M. Castro, and J.A. Moreno.
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A. Björkman.
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W. Bles, S. Nooy, and L.C. Boer.
Influence of ship listing and ship motion on walking speed.
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V.J. Blue and J.L. Adler.
Bi-directional emergent fundamental pedestrian flows from cellular
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C. Burstedde, A. Kirchner, K. Klauck, A. Schadschneider, and J. Zittartz.
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E. Cl´ement, G. Reydellet, F. Rioual, B. Prise, V. Fanguet, J. Lanuza, and
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P Crossland.
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R. Fries.
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E.R. Galea.
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W. Grosshandler, S. Sunder, and J. Snell.
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H.W. Hamacher and S.A. Tjandra.
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D. Helbing, I. Farkas, P. Moln´ar, and T. Vicsek.
Simulation of pedestrian crowds in normal and evacuation situations.
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S.P. Hoogendoorn, P.H.L. Bovy, and W. Daamen.
Microscopic pedestrian wayfinding and dynamics modelling.
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D. Hosser.
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I.M. Jánosi.
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M. Katuhara, H. Matsukura, and S. Ota.
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Kevin C. Kiefer.
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A. Kirchner and A. Schadschneider.
Cellular automata modelling of pedestrian dynamics and biological
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L.L. Koss and A.T. Brumley.
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Erica Kuligowski.
Review of 28 egress modells.
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C. MacFarlane.
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Foster MCGeary and Keith Decker.
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H. Nelson.
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S. Okazaki and S. Matshushita.
A study of simulation model for pedestrian movement with evacuation
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J. Pauls.
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W.G.B. Phillips.
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D.A. Purser.
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James G. Quintiere.
Compartment fire modelling.
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J. Riding.
FSA and the safety case.
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Gerald H. Ristow.
Arching in hoppers or silos filled with granular materials.
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J.M. Rubes.
Crowd flow patterns.
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Cesar Saloma.
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A. Schadschneider.
Bionics-inspired cellular automaton model for pedestrian dynamics.
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A. Schadschneider.
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V. Schneider and R. Könnecke.
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J. Sime.
The concept of panic.
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J.D. Sime.
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R.J.C. Stanton and G.K. Wanless.
Pedestrian movement.
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David W. Stroup.
Using field modeling to simulate enclosure fires.
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P.A. Thompson and E.W.Marchant.
Modelling techniques for evacuation.
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Alasdair Turner and Alan Penn.
Evolving direct perception models of human behavior in building
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D. Vassalos, G. Christiansen, and H. Kim.
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D. Vassalos, H. Kim, G. Christiansen, and J. Majunder.
A mesoscopic model for passenger evacuation in a virtual ship-sea
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Wiliam D. Walton.
Zone computer fire models for enclosures.
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Wiliam D. Walton and Philip H. Thomas.
Estimating temperatures in compartment fires.
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A. Willis, R. Kukla, J. Kerridge, and J. Hine.
Laying the foundations: The use of vedeo footage to explore
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D. Withington.
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P.G. Wood.
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K. Abe.
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Julian Hine Alexandra Willis, Robert Kukla and Jon Kerridge.
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Gianluca Antonini, Michel Bierlaire, and Mats Weber.
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