| 580 |
Michal Czuba |
Identifying Super Spreaders in Multilayer Networks with Graph Neural Networks |
Michał Czuba (Wrocław University of Science and Technology)*; Mateusz Stolarski (Wrocław University of Science and Technology); Adam Piróg (4Semantics); Piotr Bródka (Wrocław University of Science and Technology) |
| 472 |
Martin Sterchi |
Evaluating Graph Neural Networks for Epidemic Source Detection: A Benchmark Study |
Martin Sterchi (University of Zurich)*; Lorenz Hilfiker (University of Bern) |
| 491 |
Tim Van Wesemael |
Sentiment homophily and polarisation in Belgian Reddit comments on COVID-19 mitigation measures |
Tim Van Wesemael (Ghent University)*; Luis E. C. Rocha (Ghent University); Tijs W. Alleman (John Hopkins); Jan M. Baetens (Ghent University) |
| 456 |
Zahra Ghadiri |
Epidemic reproduction number in spatial networks |
Zahra Ghadiri (Aalto University)*; Takayuki Hiraoka (Aalto University); Jari Saramäki (Aalto University) |
| 528 |
Vitaly Belik |
Recurrent contacts explain outperformance of non-degree-based epidemic surveillance in dynamic contact networks |
Alejandra Rincon (NET CHECK GmbH)*; Marlli Zambrano (Freie Universität Berlin); Ashish Thampi (NET CHECK GmbH); Andrzej Jarynowski (Freie Universität Berlin); Steven Schulz (NET CHECK GmbH); Vitaly Belik (Freie Universität Berlin) |
| 382 |
Maria Warns |
Modeling and Sensitivity Analysis of SARS-CoV-2 Viral RNA Transport on Wastewater Networks in Chicago, USA |
Maria Warns (Northwestern University)*; Katelyn Leisman (Northwestern University); Aaron Packman (Northwestern University); Niall Mangan (Northwestern University) |
| 237 |
Mar Barrantes Cepas |
Fiber-specific white matter damage explains cortical atrophy in multiple sclerosis |
Mar Barrantes-Cepas (Amsterdam UMC)*; Giuseppe Pontillo (Amsterdam UMC); Martijn D. Steenwijk (Amsterdam UMC); David van Nederpelt (Amsterdam UMC); Eva M.M. Strijbis (Amsterdam UMC); Frederic Barkhof (Amsterdam UMC); Menno M. Schoonheim (Amsterdam UMC); Ismail Koubiyr (Amsterdam UMC) |
| 9 |
Viktor Stojkoski |
Development acupuncture: The network structure of multidimensional poverty and its implications |
Viktor Stojkoski (Faculty of Economics Skopje)*; Luis-Felipe Lopez Calva (The World Bank); Kimberly Bolch (The World Bank); Almudena Fernández (UNDP) |
| 502 |
Tjeerd Boonstra |
Kinematic and muscle networks reveal the modular control of sit-to-stand movements |
Emahnuel Troisi Lopez (National Research Council); Ramon Boekesteijn (Radboud University Medical Center); Roberta Minino (University of Naples “Parthenope”); Pierpaolo Sorrentino (Aix-Marseille Université); Kenneth Meijer (Maastricht University); Tjeerd Boonstra (Maastricht University)* |
| 511 |
Sara Pujiula Buhl |
Switching attention in coordinated movement under sensory constraints |
Sara Pujiula Buhl (Humboldt Universität zu Berlin)*; Mohsen Raoufi (Humboldt Universität zu Berlin); Pawel Romanczuk (Humboldt Universität zu Berlin) |
| 462 |
Orcun Karabicak |
Exploring the European Professional Football Inter-League Transfer Market: A Network Analysis Approach. |
Orçun Karabıçak (Tilburg University)*; Sinan Dede (Tilburg University); Steven van den Oord (Tilburg University); Claudia Zucca (Tilburg University) |
| 442 |
Felipe Xavier Costa |
The metric backbone of brain networks across lifespan and hemispheres |
Felipe Costa (Católica Biomedical Research Center)*; Olaf Sporns (Indiana University); Luis Rocha (Binghamton University) |
| 66 |
Eckehard Schöll |
Interplay of synchronization and cortical input in models of brain networks |
Eckehard Schöll (TU Berlin)*; Jakub Sawicki (Universität der Künste Berlin) |
| 537 |
Antoine Allard |
Functional connectivity alterations in neuronal networks derived from individuals with schizophrenia |
Zahra Yazdani (Laval University)*; Niraj Patel (Laval University); Anne-Sophie Roy (Laval University); Mohamed Haouat (Laval University); Erik Bélanger (Laval University); Pierre Marquet (Laval University); Antoine Allard (Laval University); Patrick Desrosiers (Laval University) |
| 481 |
Andy Edinger |
Modeling the Cognitive Network Dynamics of Mental Health Disorders |
Andy Edinger (Indiana University)*; Johan Bollen (Indiana University) |
| 112 |
Valentina Sanchez |
The Human Brain as a Combinatorial Complex |
Valentina Sanchez (Tilburg University)*; Çiçek Güven (Tilburg University); Gonzalo Nápoles (Tilburg University); Marie Postma (Tilburg University); Koen Haak (Tilburg University) |
| 198 |
Daniel Graham |
Brain volume predicts survival of colliding-spreading messages on mammal brain networks |
Yan Hao (Hobart and William Smith Colleges); Tate Tower (Hobart and William Smith Colleges); Hannah Lax (U. S. Department of Veterans Affairs); Marc-Thorsten Hütt (Constructor University); Daniel Graham (Hobart and William Smith Colleges)* |
| 197 |
Daniil Vlasenko |
Ensemble-Based Graph Representation of fMRI Data for Cognitive Brain State Classification |
Daniil Vlasenko (HSE University )*; Vadim Ushakov (HSE University); Alexey Zaikin (University College London); Denis Zakharov (HSE University) |
| 601 |
Sina Roshandel |
Persistent Homology of T-Cell Receptor Repertoire |
Sina Roshandel (University of Duisburg-Essen)*; Farnoush Farahpour (University of Duisburg-Essen); Daniel Hoffmann (University of Duisburg-Essen); Simo Kitanovski (University of Duisburg-Essen); Jürgen Becker (German Cancer Research Center Heidelberg) |
| 424 |
Amikam Patron |
Evolution of mutating pathogens in networked population |
Amikam Patron (Jerusalem College of Technology)*; Aviel Ivry (Bar Ilan University); Reuven Cohen (Bar Ilan University) |
| 614 |
Josef Hoppe |
Random Abstract Cell Complexes |
Josef Hoppe (RWTH Aachen University)*; Michael Schaub (RWTH Aachen University) |
| 532 |
Philipp Hoevel |
Fingerprinting Multi-Layer Networks via their Motif Distribution: a Case Study on the Connectome of C. elegans |
Philipp Hövel (Saarland University)*; Deepak Sharma (Christian-Albrechts-Universität zu Kiel); Matthias Renz ( Christian-Albrechts-Universität zu Kiel) |
| 364 |
Sofia Medina |
The Structure of the Chemical Space and its Properties, an Exploration of Chemical Reaction Hypergraphs |
Sofia Medina (University of Oxford)*; Timothy LaRock (University of Oxford); Renaud Lambiotte (University of Oxford) |
| 132 |
Rana Shojaei |
Counting Molecular Structures with Multi-variate Generating Functions |
Rana Shojaei (Helmholtz Institute for functional Marin Biodiversity)*; Thilo Gross (Helmholtz Institute for Functional Marin Biodiversity-Oldenburg) |
| 368 |
Yuanyuan Duan |
Mapping Genetic Pathways and Therapeutic Targets in Rare Epilepsy |
Yuanyuan Duan (Maastricht University); Friederike Ehrhart (Maastricht University)*; Theo De Kok (Maastricht University) |
| 365 |
Friederike Ehrhart |
Mapping rare diseases from pathways to networks |
Friederike Ehrhart (Maastricht University)*; Alexandra Valeanu (Maastricht University); Yuanyuan Duan (Maastricht University); Galadriel Briere (Aix*Marseille University); Eleni Mina (Leiden University Medical Centre); Anaïs Baudot (Aix*Marseille University) |
| 326 |
Damin Kühn |
Multimodal Graph Optimal Transport with Applications to Patient-level Multiomics Data |
Damin Kühn (RWTH Aachen )*; Mayra Ruiz (RWTH Aachen University Hospital); James Nagai (RWTH Aachen University Hospital); Paul Kießling (RWTH Aachen University Hospital); Michael Scholkemper (RWTH Aachen); Christoph Kuppe (RWTH Aachen University Hospital); Ivan Costa (RWTH Aachen University Hospital); Michael Schaub ( RWTH Aachen) |
| 303 |
Mattia Marzi |
Digital twins of economic and financial networks |
Mattia Marzi (IMT School for Advanced Studies Lucca)*; Tiziano Squartini (IMT School for Advanced Studies Lucca); Giulio Cimini (Tor Vergata University of Rome); Diego Garlaschelli (IMT School for Advanced Studies Lucca) |
| 297 |
Ren Manfredi |
Enhancing cooperation in Public Good Game by introducing adverse event in structured populations |
Ren Manfredi ( IMT School for Advanced Studies Lucca )*; Rossana Mastrandrea (University of Turin) |
| 92 |
Nicolas Romero Diaz |
A Network Approach to Scope 3 Emissions |
Nicolás Romero Díaz (Vlerick Business School)*; David Veredas (Vlerick Business School); Maxi Udenio (KU Leuven); Wim Van Hyfte (Candriam) |
| 285 |
Timur Naushirvanov |
Evacuation patterns and socioeconomic stratification in the context of wildfires |
Timur Naushirvanov (Central European University)*; Erick Elejalde (L3S Research Center); Kyriaki Kalimeri (ISI Foundation); Elisa Omodei (Central European University); Marton Karsai (Central European University); Leo Ferres (IDS UDD) |
| 503 |
Maria Oskarsdottir |
Capturing Dynamics and Market Interaction Patterns in Corporate Financial Activities: A Multi-Modal Approach using Sequential and Graph-Based Data for Credit Risk Assessment |
María Óskarsdóttir (Reykjavík University)*; Magnús Freyr Morthens (Reykjavík University); Mahsa Tavakoli (Western University); Cristián Bravo (Western University) |
| 342 |
Magdalena Rath |
Network Structures and Social Influence Dynamics: The Effect of Exogenous Shocks on Intra-Household Bargaining |
Magdalena Rath (University of Graz)*; Patrick Mellacher (University of Graz) |
| 166 |
Samin Aref |
Optimization algorithm for the clique partitioning problem and its applications in optimization-based community detection and portfolio analysis |
Samin Aref (University of Toronto)*; Boris Ng (University of Toronto) |
| 109 |
Ruixue Jing |
Optimising Cryptocurrency Portfolios Through Stable Clustering of Price Correlation Networks |
Ruixue Jing (Ghent University)*; Ryota Kobayashi (The University of Tokyo); Luis E C Rocha (Ghent University) |
| 322 |
Lars Schroeder |
Stationary distribution of node2vec random walks on household models |
Lars Schroeder (University of Twente)*; Clara Stegehuis (University of Twente) |
| 67 |
Fu Chaoqi |
Analysis of Attacker-defender Games on Interdependent Networks |
Fu Chaoqi (Air Force Engineering University)*; Zhuoying Shi (Air Force Engineering University); Yuan Bian (Air Force Engineering University) |
| 84 |
LUIS COMOLLI |
Network Analysis and Maximum Entropy Approaches in Complex Agroforestry Systems |
LUIS COMOLLI (Independent)* |
| 196 |
Niloofar Kheirkhahan |
Data-Driven Resilience Analysis of the Foggia Road Network under Targeted Bridge Attack Scenarios Using Complex Network Theory |
Niloofar Kheirkhahan (Aldo Moro University of Bari)*; Lorenzo Debiase (ENEA); valentina lucaferri (ENEA); Alberto Tofani (ENEA); Chiara Ormando (ENEA); Loredana bellantuono (Aldo Moro University of Bari); roberto Bellotti (Aldo Moro University of Bari); Nicola amoroso (Aldo Moro University of Bari); roberto cilli (Aldo Moro University of Bari); Ester Pantaleo (Aldo Moro University of Bari); domenico pomarico (Aldo Moro University of Bari) |
| 167 |
Emile Emery |
A Power Grid Growth Model Based on Rural-Urban Distinction |
Emile Emery (CEA)*; Sebastien Aumaître (CEA); Hervé Bercegol (CEA) |
| 122 |
Kashin Sugishita |
Delay propagation due to temporary airport closures |
Kashin Sugishita (Institute of Science Tokyo)*; Shinya Hanaoka (Institute of Science Tokyo) |
| 307 |
Maurizio Titz |
Predicting Dynamic Stability from Static Features in Power Grid Models using Machine Learning |
Maurizio Titz (Forschungszentrum Jülich)* |
| 563 |
Esteban Nocet-Binois |
Data-Driven Graph Inference for Large-Scale Infrastructure Networks |
Estéban Nocet--Binois (Princeton University)*; Jürgen Hackl (Princeton University) |
| 221 |
Sangjoon Park |
Mitigating Cascading Failure in Power Grid through Inertia Reinforcement Strategies |
Sangjoon Park (Korea Institute of Energy Technology)*; Cook Hyun Kim (Korea Institute of Energy Technology); Byungnam Kahng (Korea Institute of Energy Technology) |
| 403 |
Ludwig Schulte |
Assessing the Resilience of Germany’s Power Grid through Static Network Analysis of SciGRID Data |
Johannes Bendler (Maastricht University)*; Ludwig Schulte (Maastricht University) |
| 19 |
Michael Magid |
Graph Neural Networks for Analyzing Human Trafficking Networks in the Western Hemisphere |
Michael Magid (Binghamton University)*; Zeynep Ertem (Binghamton University) |
| 153 |
Jack Sutton |
Evolution of Rural-Urban Scaling and the Interconnections between Population Characteristics, Crime, Property Transaction Value, Mortality and Road Accidents |
Jack Sutton (University of Derby)*; Gerri Mortimore (University of Derby); Ovidiu Bagdasar (University of Derby); Thomas Peron (University of São Paulo); Haroldo Ribeiro (Universidade Estadual de Maringa); Quentin Hanley (University of Derby); Peter Scriven (University of Derby) |
| 418 |
Wang Ngai Yeung |
Garbage in Garbage out: Impacts of data quality on criminal network intervention |
Wang Ngai Yeung (Network Science Institute, Northeastern University)*; Riccardo Di Clemente (Network Science Institute, Northeastern University); Renaud Lambiotte (Mathematical Institute, University of Oxford) |
| 283 |
Elena Candellone |
Detecting money laundering facilitators: a network-based approach |
Elena Candellone (Utrecht University)*; Peter Gerbrands (Utrecht University); Mahdi Shafiee Kamalabad (Utrecht University); Ruben Schmidt (Fiscal Information & Investigation Service (FIOD)); Javier Garcia-Bernardo (Utrecht University) |
| 513 |
Simon Puttock |
The impact of city attractiveness on urban crime |
Simon Puttock (University of Exeter); Marcos Oliveira (University of Exeter)* |
| 57 |
Michele Coscia |
The Economic Complexity of the Roman Empire |
Michele Coscia (IT University of Copenhagen)*; Matteo Mazzamurro (Aarhus University); Petra Heřmánková (Aarhus University); Tom Brughmans (Aarhus University) |
| 453 |
Marcella Tambuscio |
Digitising History: Network Perspectives of a Medieval Court |
Marcella Tambuscio (University of Graz)*; Suzana Sagadin (University of Graz); Richard Hadden (University of Graz); Georg Vogeler (University of Graz) |
| 415 |
Andrea Lo Sasso |
Complex networks reveals socio-geographical anomalies in administrative elections |
Andrea Lo Sasso (University of Bari)*; Emanuele Amato (University of Bari); Loredana Bellantuono (University of Bari); Nicola Amoroso (University of Bari); Roberto Bellotti (University of Bari) |
| 544 |
Aviral Chawla |
Networked Policies and Adaptations to Generative AI in Higher Education |
Juniper Lovato (University of Vermont Complex Systems Center)*; Aviral Chawla (University of Vermont); Laurent Hèbert-Dufresne (University of Vermont) |
| 450 |
Oscar M. Granados |
Knowledge Networks of Artificial Intelligence |
Oscar Granados (Universidad Jorge Tadeo Lozano)* |
| 440 |
Nikolas Zöller |
A Graph-Based Framework for Collective Intelligence: Leveraging Structured Knowledge to Improve Diagnostic Accuracy |
Nikolas Zöller (Max-Planck Institute for Human Development)*; Chiara D'Onofrio (CNR); Alessandro Russo (CNR); Ralf Kurvers (Max-Planck Institute for Human Development); Vito Trianni (CNR); Stefan Herzog (Max-Planck Institute for Human Development) |
| 590 |
Hiroki Sayama |
Updating the Complex Systems Keyword Diagram Using Collective Feedback and Latest Literature Data |
Hiroki Sayama (Binghamton University, State University of New York)* |
| 63 |
Benedikt Meylahn |
How social reinforcement learning can lead to metastable polarisation and the voter model |
Benedikt Meylahn (University of Amsterdam)*; Janusz Meylahn (University of Twente) |
| 228 |
Zhen Hua |
Reaching Consensus of Group Decision-making for Higher-order Interactions in Social Networks |
Zhen Hua (Xi'an Jiaotong-Liverpool University); Haoran Zhu ( Xi'an Jiaotong-Liverpool University); Jianjia Wang (Xi'an Jiaotong-Liverpool University)* |
| 243 |
Anton Proskurnikov |
Opinion Dynamics: Effects of Memory and Higher-Order Neighbours |
Roberta Raineri (Politecnico di Torino); Lorenzo Zino (Politecnico di Torino); Anton Proskurnikov (Politecnico di Torino)* |
| 185 |
Shigefumi Hata |
Mathematical modeling of polarization dynamics in social networks |
Shigefumi Hata (Kagoshima University)*; Hiroya Nakao (Institute of Science Tokyo); Ryota Kobayashi (University of Tokyo) |
| 250 |
Eva Rifà |
Far-right party influence on polarization dynamics in electoral campaign |
Eva Rifà (Eurecat)*; Joan Massachs (Eurecat); Emanuele Cozzo (Universitat de Barcelona Institute of Complex Systems (UBICS)); Julian Vicens (Eurecat) |
| 246 |
David Hernandez |
Cascade merging of opinion clusters in a growing scale-free network with homophily |
David Hernandez Lozano (VIU)*; Yerali Gandica (UNIE University); Guillaume Deffuant (Universit´e Clermont-Auvergne, INRAE) |
| 162 |
Kleber Andrade Oliveira |
Mechanistic interplay between information spreading and opinion polarization |
Kleber Oliveira (Munster Technological University)*; Henrique Ferraz de Arruda (George Mason University); Yamir Moreno (Universidad de Zaragoza) |
| 488 |
Gabriella Dantas Franco |
Impact of network adaptation driven by homophily on long-term opinion dynamics |
Gabriella Dantas Franco (University of Amsterdam)*; Fernando P. dos Santos (University of Amsterdam) |
| 545 |
Mateusz Nurek |
CoDiNG: A Hybrid Opinion Model Based on Human Cognition |
Mateusz Nurek (Wrocław University of Science and Technology)*; Joanna Kołaczek (Wrocław University of Science and Technology ); Radosław Michalski (Wrocław University of Science and Technology); Boleslaw Szymanski (Rensselaer Polytechnic Institute); Omar Lizardo (University of California Los Angeles) |
| 509 |
Stanislaw Stepien |
On Fairness in Opinion Modelling |
Stanislaw Stepien (Wroclaw University of Science and Technology); Michalina Janik (Aarhus University); Mateusz Nurek (Wroclaw University of Science and Technology); Akrati Saxena (Leiden University); Radoslaw Michalski (Wroclaw University of Science and Technology)* |
| 610 |
Dorian Quelle |
Blue Skies, Red Lines: Mapping Political Debate Networks on Bluesky |
Dorian Quelle (UZH)*; Ekaterina Landgren (University of Colorado Boulder); Alexandre Bovet (UZH) |
| 564 |
Martin Coll |
HIF: The Hypergraph Interchange Format for higher-order networks |
Martin Coll (Universtity of Buenos Aires)*; Nicholas Landry (University of Virginia); Cliff Joslyn (Pacific Northwest National Laboratory); Francesco Lotito (University of Trento); Brenda Praggastis (Pacific Northwest National Laboratory); Audun Myers (Pacific Northwest National Laboratory); Przemyslaw Szufel Szufel (SGH Warsaw School of Economics) |
| 535 |
Soroush Karimi |
How does ideology affect the spread of misinformation? |
Soroush Karimi (University of Exeter)*; Marcos Oliveira (University of Exeter); Diogo Pacheco (University of Exeter) |
| 142 |
Veronica Mesina |
Framing the Narrative: How Italian Authorities Dominated COVID-19 Twitter Debate |
Veronica Mesina (Univeristy of Pisa)*; Andrea Failla (University of Pisa); Virginia Morini (University of Pisa); Giulio Rossetti (ISTI - CNR) |
| 461 |
Kateryna Ponomarenko |
Misinformation spreading through chain emails |
Miroslav Mirchev (Complexity Science Hub)*; Kateryna Ponomarenko (Complexity Science Hub); Shayan Alipour (Sapienza University of Rome); Bernhard Haslhofer (Complexity Science Hub); Fariba Karimi (Graz University of Technology) |
| 581 |
Imme Huitema |
Echo-chambers on Mastodon, Investigating Smaller Instances |
Imme Huitema (University of Groningen)*; Mirela Riveni (University of Groningen) |
| 407 |
Gergő Bocsárdi |
Predicting Brand Performance in Online Media Content Sharing Networks |
Ábel Gergely Bocsárdi (Jheronimus Academy of Data Science, Eindhoven University of Technology)*; Claudia Zucca (Jheronimus Academy of Data Science, Tilburg University); Ksenia Podoynitsyna (Vlerick Business School, University of Ghent) |
| 460 |
Madhura Pawar |
Improving Betweeness Centrality Fairness in Algorithmic Link-Recommendations |
Madhura Pawar (University of Amsterdam)*; Fariba Karimi (Graz University of Technology, Austria); Fernando Santos ( University of Amsterdam) |
| 334 |
Pezhman Ebrahimzadeh |
Network Attractors in Systems near Criticality |
Pezhman Ebrahimzadeh (Forschungszentrum Juelich)*; Michael Schiek (Forschungszentrum Juelich); Yuriy Maistrenko (Institute of Mathematics and Technical Centre, NAS of Ukraine) |
| 613 |
Maxim Klimenko |
Generalization of DomiRank: considering the similarity of vertices |
Maxim Klimenko (MIPT)*; Ivan Samoylenko (HSE) |
| 611 |
Ivan Samoylenko |
Linegraphs to subtler hypergraphs analysis. From vector to matrix centralities |
Ekaterina Vasilyeva (MIPT); Ivan Samoylenko (HSE university)*; Kirill Kovalenko (Scuola Superiore Meridionale); Daniil Musatov (MIPT); Andrei Raigorodskii (MIPT); Stefano Boccaletti (CNR - Institute of Complex System) |
| 360 |
Philip Marszal |
Disentangling non-Markovian random walks on networks |
Philip Marszal (Technische Universität Dresden)*; Benjamin Köhler (Universität Duisburg-Essen); Nora Molkenthin (Potsdam Institute for Climate Impact Research); Marc Timme (Technische Universität Dresden); Malte Schröder (Technische Universität Dresden) |
| 559 |
Akshay Gangadhar |
Centrality as a form of higher-order cumulative advantage |
Akshay Gangadhar (Binghamton University)*; Yoshiaki Fujita (Binghamton University); Sadamori Kojaku (Binghamton University) |
| 490 |
Melvyn Tyloo |
Revealing the structural connectivity of weakly coupled spiking networks |
Melvyn Tyloo (University of Exeter)*; Kyle Wedgwood (University of Exeter) |
| 486 |
Éverton Fernandes da Cunha |
Characterization of hypergraph complex networks: Survey of implemented measurements |
Éverton Fernandes da Cunha (University of Twente)*; Yanna J. Kraakman (University of Twente); Clara Stegehuis (University of Twente); Albert S. Y. Wong (University of Twente) |
| 484 |
Florian Frantzen |
Simplicial Anomaly Detection |
Florian Frantzen (RWTH Aachen University)*; Michael Schaub (RWTH Aachen University) |
| 369 |
Lokamruth K R |
Exploring The Network Science Software Ecosystem |
Lokamruth KR (Reykjavik University)*; Szabolcs Horvát (Reykjavik University) |
| 377 |
Zexun Chen |
Understanding the Growth and Transformation of Indonesia's Internet Ecosystem: An Autonomous System-Level Analysis |
Zexun Chen (University of Edinburgh)*; Abdulqadir Muhtadi (University of Edinburgh) |
| 380 |
David Ferenczi |
Inferring signed networks from contact patterns |
David Ferenczi (Maastricht University)*; Jean-Gabriel Young (The University of Vermont); Leto Peel (Maastricht Univesity) |
| 517 |
Sanghyun Jung |
Network Featurization with Harmonic Functions |
Sanghyun Jung (Western University)*; María Óskarsdóttir (Reykjavík University); Cristián Bravo (Western University) |
| 495 |
Aleksandra Puchalska |
Pangraphs as models of higher-order interactions |
Mateusz Iskrzyński (Polish Academy of Sciences); Aleksandra Puchalska (University of Warsaw)*; Aleksandra Grzelik (Polish Academy of Sciences); Gokhan Mutlu (Grazi University) |
| 324 |
Yanna Kraakman |
Hypercurveball algorithm for sampling hypergraphs with fixed degrees |
Yanna Kraakman (University of Twente)*; Clara Stegehuis (University of Twente) |
| 107 |
Hiroshi Okamoto |
Measuring associations between distant nodes in complex networks |
Hiroshi Okamoto (The University of Tokyo)*; Hiroko Yamano (The University of Tokyo); Ichiro Sakata (The University of Tokyo) |
| 238 |
Anton Savostianov |
Fast Sparsification of Simplicial Complexes via Network Density of States |
Anton Savostianov (RWTH)*; Nicola Guglielmi (Gran Sasso Science Institute); Michael Schaub (RWTH); Francesco Tudisco (Maxwell Institute & School of Mathematics, University of Edinburgh) |
| 113 |
Erik Jan van Leeuwen |
When do Faster Algorithms to Compute Network Diameter Exist? |
Jelle J. Oostveen (Utrecht University); Erik Jan van Leeuwen (Utrecht University)*; Daniël Paulusma (Durham University) |
| 27 |
Antonina Khramova |
Constructing cospectral hypergraphs and gain graphs |
Aida Abiad (Eindhoven University of Technology); Francesco Belardo (University of Naples “Federico II”); Antonina Khramova (Eindhoven University of Technology)* |
| 203 |
Yingyue Ke |
The Laplacian matrix of weighted threshold graphs |
Yingyue Ke (Delft University of Technology)*; Willem Haemers (Tilburg University); Piet Van Mieghem (Delft University of Technology) |
| 193 |
Harrison Hartle |
Growing unlabeled networks |
Harrison Hartle (Santa Fe Institute)*; Brennan Klein (Northeastern University); Dmitri Krioukov (Northeastern University); Pavel Krapivsky (Boston University) |
| 138 |
Daichi Kuroda |
Finding General Hierarchies: Beyond Binary Trees |
Maximilien Dreveton (EPFL); Daichi Kuroda (EPFL)*; Matthias Grossglauser (EPFL); Patrick Thiran (EPFL) |
| 201 |
François Meyer |
The Best Soules Basis to Compute the Spectral Barycentre of a Set of Networks |
François Meyer (University of Colorado at Boulder)* |
| 438 |
Martin Moriamé |
Hamiltonian control to desynchronize Kuramoto oscillators with higher-order interactions |
Martin Moriamé (University of Namur)*; Timoteo Carletti (University of Namur); Maxime Lucas (University of Namur) |
| 312 |
Jia-Jie Qin |
High Reconstructability of Degree-Heterogeneous Networks |
Jia-Jie Qin (Tongji University)*; Gang Yan (Tongji University) |
| 269 |
Gugyoung Kim |
Exploring Chimera States in Synchronous Oscillators: Focusing Solely on Triadic Interactions |
Kim Gugyoung (Hanyang University)*; Kahng Byungnam (Korea Institute of Energy Technology); Lee Mi Jin (Hanyang University); Son Seung-Woo (Hanyang University); Yi Sudo (Korea Institute for Advanced Study) |
| 599 |
Vincent Grande |
Topological Trajectory Classification and Landmark Inference on Simplicial Complexes |
Vincent Grande (RWTH Aachen University)*; Josef Hoppe (RWTH Aachen University); Florian Frantzen (RWTH Aachen University); Michael Schaub (RWTH Aachen University) |
| 32 |
Ruiqi Li |
HEgo: A fast maximum clique detection algorithm by utilizing h-index and ego networks |
Shidong Zhang (Beihang University); Xuanbo Huo (Beihang University); Ruiqi Li (Beihang University)* |
| 16 |
Akrati Saxena |
Group Fairness Metrics for Community Detection Methods in Social Networks |
Akrati Saxena (Leiden University)*; Elze de Vink (Leiden University) |
| 223 |
Xiaohang Feng |
Effective Distance Gravity Model with Quasi-Laplacian Variant A Novel Method for Identifying Key Network Nodes |
Xiaohang Feng (University College London); Zhen Hua (Xi'an Jiaotong Liverpool University)* |
| 384 |
Sergey Shvydun |
Zoo of Centralities: Models and their Comparison |
Sergey Shvydun (Delft University of Technology)* |
| 425 |
Alberto Aleta |
A Review of Coarse-Graining Methods: Insights from Physics, Network Science, and Computer Science |
Alberto Aleta (University of Zaragoza)*; Collabathon AccelNet-Multinet (NetSI & IUNI) |
| 26 |
Dino Pitoski |
Complex Networks from Survey Data |
Dino Pitoski (University of Rijeka)*; Hans Schmeets (Statistics Netherlands); Ana Meštrović (University of Rijeka) |
| 105 |
Diego Baptista Theuerkauf |
ProbINet: A Unified Python Package for Probabilistic Network Analysis |
Diego Baptista Theuerkauf (Max Planck Institute for Intelligent Systems)*; Martina Contisciani (Central European University); Caterina De Bacco (Delft University of Technology); Jean-Claude Passy (Max Planck Institute for Intelligent Systems) |
| 271 |
János Báskay |
Fitting the Multifractal Network Generator to Networks Using Topological Features |
János Báskay (ELTE; SE EMK)*; Gergely Palla (ELTE); Máté Nagy (ELTE); Péter Pollner (ELTE; SE EMK) |
| 534 |
Janos Kertesz |
Initialization and network effects in decentralised federated learning |
Arash Badie-Modiri (Central European University)*; Chiara Boldrini (National Research Council (CNR)); Lorenzo Valerio (National Research Council (CNR)); János Kertész (Central European University ); Márton Karsai (Central European University) |
| 256 |
Yongding Tian |
Vanishing Variance Problem in Decentralized Machine Learning |
Yongding Tian (Delft University of Technology)*; Zaid Al-Ars (Delft University of Technology); Maksim Kitsak (Delft University of Technology); Peter Hofstee (Delft University of Technology) |
| 96 |
Koichi Yasutake |
Temporal Hypergraph Analysis for Understanding Many-Body Interactions in Learning: Propos- ing a Hypothesis on Bursting Phenomena in Learning Processes |
Koichi Yasutake (Hiroshima University)*; Hitoshi Inoue (Nakamura Gakuen University); Takahiro Tagawa (Chikushi Jogakuen University) |
| 164 |
Moritz Laber |
Generalization and Efficiency of Graph Neural ODEs for Network Dynamical Systems |
Moritz Laber (Network Science Institute, Northeastern University)*; Brennan Klein (Network Science Institute, Northeastern University) |
| 261 |
Costantino Carlo Mastino |
Machine Learning and Building Information Modeling for optimization Energy and acoustic performance |
Costantino Carlo Mastino (University of Cagliari)*; Raffaello Possidente (University of Cagliari); Andrea Frattolillo (University of Cagliari); Juozas Vaičiūnas (Kaunas University of Technology) |
| 91 |
Moritz Lampert |
Learning Interaction Strengths in Network Dynamics from a Single Snapshot |
Moritz Lampert (Julius-Maximilians-Universität Würzburg)*; Dominic Grün (Julius-Maximilians-Universität Würzburg); Ingo Scholtes (Julius-Maximilians-Universität Würzburg) |
| 445 |
Sagar Kumar |
Information Loss in Models of Communication Across Populations |
Sagar Kumar (Northeastern University)*; Moritz Laber (Northeastern University); Maimuna Majumder (Boston Children's Hospital Center for Health Informatics Program); Brooke Welles (Northeastern University) |
| 618 |
Alexandre René |
Data-driven null models for real-world networks |
Alexandre René (RWTH Aachen)*; Michael Schaub (RWTH) |
| 612 |
Hirotaka Goto |
Extending Social Balance Theory to Three-State Interpersonal Relationships |
Hirotaka Goto (Meiji University)*; Joshua Plotkin (University of Pennsylvania); Masashi Shiraishi (Meiji University); Hiraku Nishimori (Meiji University) |
| 547 |
Lochan Chaudhari |
Modeling institutional prestige through inter-university collaboration networks |
Lochan Chaudhari (Northeastern University)*; Rodrigo Dorantes-Gilardi (Northeastern University); Brennan Klein (Northeastern University) |
| 489 |
Ajaykumar Manivannan |
Modeling Norm Networks: Unraveling the Dynamics of Interconnected Social Norms |
Ajaykumar Manivannan (University of Leeds)*; Viktoria Spaiser (University of Leeds) |
| 286 |
Victor Brabant |
Longitudinal Modularity for Uncovering Dynamic Community Structures in Link Streams |
Victor Brabant (Univ Lyon)*; Rémy Cazabet (Univ Lyon); Angela Bonifati (Univ Lyon) |
| 226 |
Jianjia Wang |
Interplay of Ihara Zeta Function and Partition Function to Explore Statistical Characterizations of Time-evolving Networks |
Jianjia Wang (Xi'an Jiaotong-Liverpool University)*; Zhen Hua (Xi'an Jiaotong-Liverpool University); Haoran Zhu (Xi'an Jiaotong-Liverpool University); Edwin Hancock (University of York) |
| 355 |
NaN |
Finding independent sets in higher-order networks using competitive dynamics |
Niek Mooij (Utrecht University)*; Ivan Kryven (Utrecht) |
| 156 |
Robin Persoons |
Continuous-time random walker induced temporal graphs |
Robin Persoons (TU Delft)*; Matteo D'Alessandro (TU Delft); Piet Van Mieghem (TU Delft) |
| 77 |
Juliette Gambaudo |
Using simple pedestrian dynamics to generate temporal networks of contacts |
Juliette Gambaudo (Centre de Physique Théorique)*; Mathieu Génois (Centre de Physique Théorique) |
| 313 |
David Almasan |
Temporal Graph Reproduction with RWIG |
Sergey Shvydun (Delft University of Technology)*; David Almasan (Delft University of Technology); Piet Van Mieghem (Delft University of Technology) |
| 305 |
Yuzuki Takahashi |
Idea networks as temporal frameworks: A novel approach to analyzing teamwork and innovation |
Yuzuki Takahashi (Waseda University)*; Tomomi Kito (Waseda University) |
| 290 |
Marzio Di Vece |
From sequential to relational data: a validated projection of multivariate time series onto signed graphs |
Marzio Di Vece (Scuola Normale Superiore Pisa)*; Emanuele Agrimi (IMT Lucca); Samuele Tatullo (IMT Lucca); Tommaso Gili (IMT Lucca); Miguel Ibanez-Berganza (IMT Lucca); Tiziano Squartini (IMT Lucca) |
| 421 |
NaN |
fragSMILES as chemical language from graph reduction |
Fabrizio Mastrolorito (University of Bari Aldo Moro)*; Orazio Nicolotti (University of Bari Aldo Moro); Nicola Amoroso (University of Bari Aldo Moro); Francesca Grisoni (Eindhoven University of Technology) |
| 569 |
NaN |
Input Redundancy and Symmetry Enhance Noise Resilience in Top Cellular Automaton Rules for the Density Classification Task |
Annajirao Challa (Binghamton University, SUNY); Duxiao Hao (Binghamton University, SUNY); Srikanth Iyer (Binghamton University, SUNY)*; Jordan Rozum (Binghamton University, SUNY); Luis Rocha (Binghamton University, SUNY) |
| 570 |
NaN |
Rumor Spread through Farthest-First Traversal |
Madhvi Ramrakhiyani (Dhirubhai Ambani Institute of Information and Communication Technology)*; V. Sunitha (Dhirubhai Ambani Institute of Information and Communication Technology); Mukesh Tiwari (Dhirubhai Ambani Institute of Information and Communication Technology) |
| 574 |
NaN |
When the Metric Matters: a Study on the Location of the Frechet Mean Network |
François Meyer (University of Colorado at Boulder)* |
| 561 |
NaN |
Generative kernel embeddings for weighted directed networks |
Alex Barbier-Chebbah (Institut Pasteur); Nicolas Billy (Institut Pasteur, Telecom Paris); Jean-Baptiste Masson (Institut Pasteur); Srinivas Turaga (Janelia Research Campus); Christian Vestergaard (Institut Pasteur)* |
| 519 |
NaN |
Fast degree-preserving rewiring of complex networks |
Shane Mannion (University of Limerick)*; Frank Takes (Leiden University); Akrati Saxena (Leiden University); Padraig MacCarron (University of Limerick) |
| 606 |
NaN |
Frustrated Quantum Magnetism on Complex Networks: What Sets the Total Spin |
Preethi G (ICTS )* |
| 376 |
NaN |
On the augmented 2-token graphs of cycles |
Miquel Àngel Fiol (Universitat Politècnica de Catalunya)*; Cristina Dalfó (Universitat de Lleida); Mónica Andrea Reyes (Universitat de Lleida) |
| 277 |
NaN |
Two-Stage HMM-REM Model for Analyzing Relational Event Data |
Mohammad Behbahani (Utrecht University)*; Emmeke Aarts (Utrecht University); Mahdi Shafiee Kamalabad (Utrecht University) |
| 361 |
NaN |
Exploring Supertoken Graphs |
Mónica Reyes (Universitat de Lleida)*; Crtistina Dalfó (Universitat de Lleida); Miquel Àngel Fiol (Universitat Politècnica de Catalunya) |
| 363 |
NaN |
Reversible Dynamic Message Passing equations for Susceptible-Infected-Susceptible model on Networks |
Mateusz Wilinski (Tampere University)*; Andrey Lokhov (Los Alamos National Laboratory) |
| 381 |
NaN |
Competition-induced criticality with heterogeneous meme fitness |
Shane Mannion (University of Limerick)*; James Gleeson (University of Limerick); Sam Unicomb (University of Limerick) |