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Presentations
The talks are divided into 4 tables:
(1) Keynote and Invited Talks;
Contributed Talks given on
(2) Day 1 (CT1)
(3) Day 2 (CT2)
(4) Day 3 (CT3).
Workshop presentations are on the Programme page.
For the abstracts of the posters click here: 
Keynote and Invited Talks
| Date | Speaker | Title | Abstract | Slides |
| 25th
June
9.00-10.00 |
N. Christakis | Eat, Drink, And Be Merry: The Spread Of Obesity, Substance Use, And Happiness In Longitudinally Resolved Social Networks | |
|
| 25th
June
10.00-10.30 |
M. Newman | Networks in Space | |
|
| 25th
June
13.30-14.00 |
J-P Onella | Structure and Modelling of Large-Scale Social Networks | |
|
| 25th
June
14.00-14.30 |
R. Pastor-Satorras | Bosonic Dynamics in Complex Networks | |
|
| 25th
June
14.00-14.30 |
S. Schuster | Pathway Modelling in Metabolic Networks | |
|
| 26th
June
9.00-10.00 |
R. May | Networks And Their Dynamical Implications in Epidemiology, Ecology, And Evolution | |
|
| 26th
June
10.00-10.30 |
N. Ferguson | Households to Global Air Travel: How Networks Shape Epidemics | |
|
| 26th
June 13.30-14.00 |
S. Bornholdt | Boolean Network Models for Biological Regulation: Prospects and Limitations. | |
|
| 26th
June 14.00-14.30 |
V. Colizza | Mobility Patterns in Epidemic Modeling: Short and Long Range Coupling | |
|
| 26th
June 14.30-15.00 |
Z. Oltvai | Constraints and Regulation of Metabolic Networks. | |
|
| 27th
June
9.00-10.00 |
B. Uzzi | Outstanding Scientific Achievement: Status, Clustering, And The Success Of Scientists' Collaboration Networks | |
|
| 27th
June
10.00-10.30 |
R. Mantegna | Correlation-based Networks in Finance | |
|
| 27th
June
13.30-14.30 |
A-L. Barabási | Network Science Applications To Globalcommunications | |
|
Contributed Talks CT1, Wednesday 25th June.
The contributed talks are divided in sessions:
CT1.1: Networks in Health and Society
CT1.2: Neural Networks
CT1.3: Network Complexity
CT1.4: Network Theory I
CT1.5: Networks in Society
CT1.6: CREEN Open Session
| Session | Authors | Title | Abstract | Slides |
| CT1.1.1 | S. Uzzo | Connections: The Nature of Networks. Bringing Network Science to the Public | |
|
| CT1.1 .2 | M.C. González et al. | Understanding Individual Human Mobility Patterns and Its Applications To Social Networks with Geographic Information | |
|
| CT1.1.3 | N. Masuda and T. Ueno | Controls Of Nosocomial Infection Based On Observed Social Networks Of A Community Hospital | |
|
| CT1.1.4 | D. A. Hunscher | Assessing the Findability of High-quality Consumer Health Information Using Network Analysis | |
|
| CT1.1.5 | J. Holliday et al. | Is Social and Structural Prestige Associated with Current and Future Smoking? | |
|
| CT1.2.1 | F. De Vico Fallani et al. | Brain Network Topology During Successful Memory Encoding in a Real-life Experiment | |
|
| CT1.2.2 | M. Kaiser | Feedback Loops and Oscillations in Modular Hierarchical Brain Networks: The Topological Origin of Brain Rhythms | |
|
| CT1.2.3 | J. J. Crofts et al. | Complex Brain Networks | |
|
| CT1.2.4 | T. Nepusz et al. | Prediction of Unknown Connections in Cortical Networks | |
|
| CT1.2.5 | S. Sreenivasan and Z.Toroczkai | Emergence of Functional Modularity from Phenotypic Adaptation to Independent Constraints | |
|
| CT1.3 .1 | J-C. Claussen & T. Wilhelm | Introduction to Network Complexity | |
|
| CT1.3.2 | J. Reichardt and D. R. White | Beyond Modularity: Density Generalized Block Modeling | |
|
| CT1.3.3 | P. Minnhagen and S. Bernhardsson | The Blind Watchmaker Network: Scale-freeness and evolution | |
|
| CT1.3.4 | E. Olbrich et al. | From the Complexity of Probability Distributions to Measures of Graph Complexity | |
|
| CT1.3.5 | A. Hintze and C. Adami | Information-theoretic Measure of Network Complexity | |
|
| CT1.4 .1 | M. Ostilli and J. F. Mendes | Exact Results and New Insights for Models Defined over Small-world Networks | |
|
| CT1.4.2 | J. P. Gleeson and S. Melnik | Cascades on Correlated and Modular Networks | |
|
| CT1.4.3 | Z. Toroczkai | Realizing All Simple Graphs With a Given Degree Sequence | |
|
| CT1.4.4 | S. Shioda | Scale-Free Directed Networks from Threshold Model with Two Intrinsic Node Variables | |
|
| CT1.4.5 | D. Abel et al. | CFinder: Efficient Module Finder in Directed, Undirected and Weighted Networks | |
|
| CT1.5.1 | M. A. Porter | Communities in Legislative Networks | |
|
| CT1.5.2 | A. Madan and A. Pentland | Mob.Media: A Mobile Phone Platform for Computational Social Science | |
|
| CT1.5.3 | K. Jacobson et al. | An Analysis of on-line Music Artist Network | |
|
| CT1.5.4 | A. Z. Kamran | Network Analysis of Global Politics | |
|
| CT1.5.5 | E. Yoneki and J. Crowcroft | Study of Wireless Epidemic Spread in Dynamic Human Connectivity Traces | |
|
| CT1.6 .1 | M. Ausloos and A. G. C. Ross | A Small Network with Two Distinct Communities : Neo Creationists vs. Evolution Defenders. Organizational and Dynamical Aspects of an Opinion Controversy | |
|
| CT1.6.2 | K. Suchecki and J.A. Hołyst | Who Wins a Group-Group Competition? Phase Transitions in Ising Models at Coupled Complex Networks | |
|
| CT1.6.3 | L. Leydesdorff et al. | Nodes in Evolving Networks – Scientific Journals as a Case of Dynamic Animation | |
|
| CT1.6.4 | V. D. Blondel et al. | Fast Unfolding of Community Hierarchies in Large Networks | |
|
| CT1.6.5 | K. Suchecki and J.A.Hołyst | Voter Model on Sierpinski Fractals | |
|
Contributed Talks CT2, Thursday 26th June.
The contributed talks are divided in sessions:
CT2.1: Networks in Biology
CT2.2: Epidemiology, Environment
CT2.3: Network Theory II
CT2.4: Computational biology
CT2.5: Visualisation.
CT2.6: Network theory III
| Session | Authors | Title | Abstract | Slides |
| CT2.1.1 | A. E. Motter et al. | Network Method for the Recovery of Lost Cellular Function | |
|
| CT2.1.2 | T. Handorf et al. | Novel Method for the Determination of Nutritional Requirements | |
|
| CT2.1.3 | N Gulbahce & A-L Barabási | Viral Networks, Connecting Virus-Human Interaction Networks to Population Disease Patterns | |
|
| CT2.1.4 | R. Plasson et al. | Decomposition of Complex Reaction Networks into Reactions | |
|
| CT2.1.5 | B. Papp et al. | Autocatalitic Replicators Embedded in Metabolic Networks | |
|
| CT2.2.1 | H. Williams and T. Lenton | Environmental Regulation in Simulated Networks of Microbial Ecosystems | |
|
| CT2.2.2 | Y. Berchenko and M. Teicher | Competing Spreading Processes on Networks – Even a Few Localized Edges Give You the Winning Edge | |
|
| CT2.2.3 | F. Reed-Tsochas et al. | Modelling Bipartite Cooperation in Ecological and Organizational Networks | |
|
| CT2.2.4 | L. Fiebig et al. | A Contact Network Model of the Swiss Poultry Sector for Avian Influenza Preparedness | |
|
| CT2.2.5 | R. Williams | Neutral Degree Distributions in Complex Food Webs | |
|
| CT2.3.1 | K. Steinhaeuser and N. V. Chawla | Is Modularity the Answer to Evaluating Community Structure in Networks? | |
|
| CT2.3.2 | S. Lehmann | Bi-clique Communities | |
|
| CT2.3.3 | T. Hruz et al. | Color-Swap Models for Non-growing Scale-free Networks | |
|
| CT2.3.4 | S. E. Ahnert and T. M. A. Fink | Clustering Signatures Classify Directed Networks | |
|
| CT2.3.5 | G. Kalna et al. | Periodic Reordering of Complex Networks | |
|
| CT2.4.1 | N. Lemke et al. | Network Topology Information-based Prediction of Human Disease Genes | |
|
| CT2.4.2 | D. J. Higham et al. | Communicability and Bipartivity in Complex Networks at Negative Temperatures | |
|
| CT2.4.3 | W-M Song et al. | Filtered Correlation Graphs to Select Gene Expression Profiles | |
|
| CT2.4.4 | P. Rämö et al. | Discovering Mammalian Endocytic Pathways with High-Throughput Image-Based siRNA Screens and Network Analysis | |
|
| CT2.4.5 | M. Schütte et al. | Evolution of the Co-expression Network in Arabidopsis thaliana | |
|
| CT2.5.1 | M. Schich and S. Lehmann | Generating 2-Dimensional Overviews from a Bi-Partite Classification of Images | |
|
| CT2.5.2 | T. Iba and M. Mori | Visualizing and Analyzing Networks of Co-Purchased Books, CDs and DVDs | |
|
| CT2.5.3 | M. Linnemeier et al. | Rete-Netzwerk-Red: Network Workbench – Analyzing and Visualizing Scholarly Networks Extracted from Online Bibliographic Resources | |
|
| CT2.5.4 | T. Murata and T. Ikeya | Discovering and Visualizing Communities from Bipartite Social Networks | |
|
| CT2.6 .1 | J. D. Noh and S. W. Kim | Dynamic Transition in Coevolving Networks | |
|
| CT2.6.2 | J. Leskovec et al. | Diminishing Communities in Large Social and Information Networks | |
|
| CT2.6.3 | G. Bianconi | The Entropy of Randomized Networks Ensembles | |
|
| CT2.6.4 | S. H. Yook et al. | Unified Centrality Measure of Complex Networks | |
|
| CT2.6.5 | M. Kitsak et al. | Organization of Complex Networks | |
|
Contributed Talks CT3, Friday 27th June.
The contributed
talks are divided in sessions:
CT3.1: Organisation and Communication
CT3.2: Economy, Finance and Business.
| Session | Authors | Title | Abstract | Slides |
| CT3.1.1 | B. N. Waber et al. | Mining Face-to-Face Interaction Networks Using Sociometric Badges: Evidence.Predicting Individual and Task Productivity in IT Configuration | |
|
| CT3.1.2 | S. Kim et al. | The Dark side of Scale-free Networks in Organizational Learning | |
|
| CT3.1.3 | M. M. Clements and B. W. Herr | Co-Institution Collaboration Network on U.S. University Patents 1974-2004 | |
|
| CT3.1.4 | P. Panzarasa and T. Opsahl | Patterns of Scientific Collaboration in Business and Management:The Effects of Network Structure and Interdisciplinarity on Research Performance | |
|
| CT3.1.5 | D. G. Xenikos | Self-similarity in Voice Group Communications in Trunked Mobile Telephony | |
|
| CT3.2 .1 | H. Jeong et al. | Finding Optimal Position of Facilities based on Population Density | |
|
| CT3.2.2 | Y. Fujiwara | Large-scale Structure of a Nation-wide Production Network and Chain of Bankruptcy | |
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| CT3.2.3 | G. Oestreicher-Singer and A. Sundararajan | Identifying Social Effects In Economic Networks | |
|
| CT3.2.4 | Y. Wang et al. | Non-equilibrium Process of the Random Exchange Model | |
|
| CT3.2.5 | S. Hennemann | Evolution of Academic Knowledge Networks in Transition Economies - the Chinese perspective | |
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