The scaling laws of human travel D Brockmann, L Hufnagel, T Geisel Nature 439 (7075), 462-465, 2006 | 2655 | 2006 |
The hidden geometry of complex, network-driven contagion phenomena D Brockmann, D Helbing science 342 (6164), 1337-1342, 2013 | 1289 | 2013 |
Forecast and control of epidemics in a globalized world L Hufnagel, D Brockmann, T Geisel Proceedings of the national academy of sciences 101 (42), 15124-15129, 2004 | 1249 | 2004 |
Effective containment explains subexponential growth in recent confirmed COVID-19 cases in China BF Maier, D Brockmann Science 368 (6492), 742-746, 2020 | 1041 | 2020 |
Saving human lives: What complexity science and information systems can contribute D Helbing, D Brockmann, T Chadefaux, K Donnay, U Blanke, ... Journal of statistical physics 158, 735-781, 2015 | 577 | 2015 |
Natural human mobility patterns and spatial spread of infectious diseases V Belik, T Geisel, D Brockmann Physical Review X 1 (1), 011001, 2011 | 444 | 2011 |
Unifying viral genetics and human transportation data to predict the global transmission dynamics of human influenza H3N2 P Lemey, A Rambaut, T Bedford, N Faria, F Bielejec, G Baele, CA Russell, ... PLoS pathogens 10 (2), e1003932, 2014 | 408 | 2014 |
COVID-19 lockdown induces disease-mitigating structural changes in mobility networks F Schlosser, BF Maier, O Jack, D Hinrichs, A Zachariae, D Brockmann Proceedings of the National Academy of Sciences 117 (52), 32883-32890, 2020 | 358 | 2020 |
The structure of borders in a small world C Thiemann, F Theis, D Grady, R Brune, D Brockmann PloS one 5 (11), e15422, 2010 | 218 | 2010 |
Human mobility and spatial disease dynamics D Brockmann Reviews of nonlinear dynamics and complexity 2, 1-24, 2009 | 165 | 2009 |
Robust classification of salient links in complex networks D Grady, C Thiemann, D Brockmann Nature communications 3 (1), 864, 2012 | 157 | 2012 |
Lévy flights in external force fields: from models to equations D Brockmann, IM Sokolov Chemical Physics 284 (1-2), 409-421, 2002 | 142 | 2002 |
The ecology of gaze shifts D Brockmann, T Geisel Neurocomputing 32, 643-650, 2000 | 130 | 2000 |
Complexity in human transportation networks: a comparative analysis of worldwide air transportation and global cargo-ship movements O Woolley-Meza, C Thiemann, D Grady, JJ Lee, H Seebens, B Blasius, ... The European Physical Journal B 84, 589-600, 2011 | 124 | 2011 |
Lévy flights in inhomogeneous media D Brockmann, T Geisel Physical review letters 90 (17), 170601, 2003 | 122 | 2003 |
A complex network perspective for characterizing urban travel demand patterns: graph theoretical analysis of large-scale origin–destination demand networks M Saberi, HS Mahmassani, D Brockmann, A Hosseini Transportation 44, 1383-1402, 2017 | 114 | 2017 |
Effective distances for epidemics spreading on complex networks F Iannelli, A Koher, D Brockmann, P Hövel, IM Sokolov Physical Review E 95 (1), 012313, 2017 | 113 | 2017 |
Front Propagation in Reaction-Superdiffusion Dynamics:<? format?> Taming Lévy Flights with Fluctuations D Brockmann, L Hufnagel Physical review letters 98 (17), 178301, 2007 | 108 | 2007 |
Money circulation, trackable items, and the emergence of universal human mobility patterns D Brockmann, F Theis IEEE Pervasive Computing 7 (4), 28-35, 2008 | 96 | 2008 |
Fundamental properties of cooperative contagion processes L Chen, F Ghanbarnejad, D Brockmann New Journal of Physics 19 (10), 103041, 2017 | 77 | 2017 |