1 M. Chraibi, "Validated force-based modeling of pedestrian dynamics" 2012
2 J. Fang, Z. Qin, H. Hu, Z. Xu, and H. Li, "The fundamental diagram of pedestrian model with slow reaction" 391 (391): 6112-6120, 2012
3 A. Seyfried, "The Fundamental Diagram of Pedestrian Movement Revisited - Empirical Results and Modelling" 2007
4 D. Helbing, "Social Force Model for Pedestrian Dynamics" 1998
5 J. L. Pauls, "SUGGESTIONS ON EVACUATION MODELS AND RESEARCH QUESTIONS"
6 J. Zhang, "Pedestrian fundamental diagrams: Comparative analysis of experiments in different geometries" Universit?t Wuppertal 2012
7 A. Seyfried, "New insights into pedestrian flow through bottlenecks" 2007
8 S. H. A. S. H. Bouk, "Named-Data-Networking-Based ITS for Smart Cities" 55 : 2017
9 P. Fiorini, "Motion planning in dynamic environments using velocity obstacles" 17 : 760-772, 1998
10 D. R. Parisi, "Morphological and dynamical aspects of the room evacuation process" 385 (385): 343-355, 2007
1 M. Chraibi, "Validated force-based modeling of pedestrian dynamics" 2012
2 J. Fang, Z. Qin, H. Hu, Z. Xu, and H. Li, "The fundamental diagram of pedestrian model with slow reaction" 391 (391): 6112-6120, 2012
3 A. Seyfried, "The Fundamental Diagram of Pedestrian Movement Revisited - Empirical Results and Modelling" 2007
4 D. Helbing, "Social Force Model for Pedestrian Dynamics" 1998
5 J. L. Pauls, "SUGGESTIONS ON EVACUATION MODELS AND RESEARCH QUESTIONS"
6 J. Zhang, "Pedestrian fundamental diagrams: Comparative analysis of experiments in different geometries" Universit?t Wuppertal 2012
7 A. Seyfried, "New insights into pedestrian flow through bottlenecks" 2007
8 S. H. A. S. H. Bouk, "Named-Data-Networking-Based ITS for Smart Cities" 55 : 2017
9 P. Fiorini, "Motion planning in dynamic environments using velocity obstacles" 17 : 760-772, 1998
10 D. R. Parisi, "Morphological and dynamical aspects of the room evacuation process" 385 (385): 343-355, 2007
11 A. Nakayama, "Instability of pedestrian flow and phase structure in a two-dimensional optimal velocity model" 71 (71): 036121-, 2005
12 F. Dietrich, "Gradient navigation model for pedestrian dynamics" 89 (89): 062801-, 2014
13 M. Chraibi, "Generalized centrifugal-force model for pedestrian dynamics" 82 (82): 046111-, 2010
14 U. K. Mohcine Chraib, "Force-based models of pedestrian dynamics" 6 (6): 17-, 2011
15 A. Schadschneider, "Extreme Environmental Events: Complexity in Forecasting and Early Warning" Springer New York 517-550, 2011
16 T. Kretz, "Experimental study of pedestrian flow through a bottleneck" 2006
17 A. Seyfried, "Enhanced empirical data for the fundamental diagram and the flow through bottlenecks" 2008
18 N. MOUSSA, "EVACUATION PROCESS IN TWO-DIMENSIONAL TRAFFIC FLOW MODELS" 23 (23): 169-176, 2009
19 M. Bando, "Dynamical model of traffic congestion and numerical simulation" 51 (51): 1035-1042, 1995
20 Y. Jiang, "Design of Mixed Synchronous/Asynchronous Systems with Multiple Clocks" 26 (26): 2220-2232, 2015
21 Y. Jiang, "Design and optimization of multiclocked embedded systems using formal techniques" 62 (62): 1270-1278, 2015
22 Y. Jiang, "Data-Centered Runtime Verification of Wireless Medical Cyber-Physical System" (99) : 1-1, 2016
23 M. Chraibi, "Collision-free speed model for pedestrian dynamics"
24 S. C. Benjamin, "Cellular automata models of traffic flow along a highway containing a junction" 1996
25 Y. Jiang, "Bayesian-Network-Based Reliability Analysis of PLC Systems" 60 (60): 5325-5336, 2013
26 A. Seyfried, "Basics of modelling the pedestrian flow" 368 (368): 232-238, 2006
27 W. Li, "ART: An Attack-Resistant Trust Management Scheme for Securing Vehicular Ad Hoc Networks" 17 (17): 960-969, 2016
28 J. Ond, "A synthetic-vision based steering approach for crowd simulation" 29 (29): 1-9, 2010
29 M. Chraibi, "A force-based model to reproduce stop-and-go waves in pedestrian dynamics" 2015