Presentations

Oral presentations

exact importance
Important spreaders: exact results on small graphs, 2017.10

inness
Morphology of travel routes and the organization of cities, 2017.6.

paradox
A paradox of importance in network epidemiology, 2015.6.

From land use to human mobility, 2015.5.
From land use to human mobility, 2015.5.

pred
How the information content of your contact pattern representation affects predictability of epidemics, 2015.5.

human_interaction
Temporal networks of human interaction, 2015.1.

organizations
Modeling the fat tails of size fluctuations in organizations, 2015.1.

sis
The SIS immortality transition in small networks, 2014.4.

andback_tnets
From temporal to static networks, and back, 2013.7.

mrsa
The network positions of MRSA risk wards in a hospital system, 2012.3.

navigators
Exploring spatial networks with greedy navigators, 2011.7.

tempovacci
Disease spreading & control in temporal networks, 2010.12.

memoryweb
Emergence of collective memories, 2010.10.

escorts
Dynamics of Internet-mediated partnership formation, 2010.9.

whymeta
Why do metabolic networks look like they do? 2010.9

berlin
Modeling the evolution of the AS-level Internet: Integrating aspects of traffic, geography and economy, 2008.10.

docent
Biologiska nätverks struktur och funktion, 2008.9.

paris2
Network modularity, currency metabolites and graph representations of metabolism, 2007.12.

meta
Structure & function of metabolic networks, 2007.10.

dresden
Efficiency of navigation in indexed networks, 2007.10.

sic
Two models of networking social agents, 2006.9.

ddap
Local symmetries in complex networks, 2006.7.

sscb1
Large-scale biological networks I, Complex network theory: An introduction, 2006.7.

nspcs_holme
Modeling the coevolution of networks and opinions, 2006.7.

paris
Vertex similarity and its application to functional prediction, 2005.11.

cph
The proximity network of patients in a healthcare systems, 2004.12.

kth
Networks in molecular biology, 2004.6.

sec
Modeling group formation in society: The networked seceder model, 2004.1.

foi
Centrala noders roll i katastrofer och andra besvärligheter, 2003.11.

hei
Discovery and analysis of biochemical subnetwork hierarchies, 2003.10.

bak
Structure and dynamics of online romance, 2003.8.

seoul
The structure of an Internet community (introducing bipartivity), 2003.1.

doksem
Structure of the Internet community pussokram.com, 2002.9.

biomodel2
Dynamical systems on complex networks II, 2002.3.

biomodel1
Dynamical systems on complex networks I, 2002.3.

helsinki
A zero-temperature study of vortex mobility in two-dimensional vortex glass models, 2002.1.

lic
Licentiate seminar, 2001.11

vg2d
Two studies of two-dimensional vortex glass models, 2001.11

csf
A Scale-Free Network Model with tunable clustering, 2001.8
Posters

jang_holme_mazur
Pathways to solve an estimation problem, 2015.7.

r0poster_mini
R0 as a predictor of epidemic outbreaks in temporal networks, 2014.7.

esa
Temporal network structure and its implications for disease dynamics and control, 2011.8.

forest
Statistical physics approach to landscape modeling: Neighborhood interaction and aridity explain the forest distribution of the Southwest US, 2006.3.

nips
Congestion and centrality in complex networks, 2003.12.

santafe
Prisoners’ dilemma in real-world acquaintance networks, 2003.9.

meta_poster
Subnetwork hierarchies of biochemical pathways, 2002.8.

sitges
Overload breakdown in evolving networks, 2002.6.