NetSI Roux

In 2022, NetSI established two new institute hub sites in London, UK and Portland, Maine.

NetSI-Roux will focus on expanding research in network epidemiology, computational epidemiology, population health, urban science, climate science, network medicine and surveillance science with network science strategies, machine learning, data science, and data visualization. The NetSI-Roux partnership presents a unique opportunity to develop innovative network modeling approaches to translational, entrepreneurial, and community focused challenges.

NetSI will participate in Roux's startup and incubator community where our team will contribute network science-driven perspectives and tools to support challenges in health, climate, urban planning and other sectors. Research applications will be focused on developing modeling frameworks, artificial intelligence approaches, data and analytics technology architectures to advance research and support decision makers in health sciences, mobility and transportation systems, socio-economic networks, ecological and climate systems.

NetSI-Roux is hiring! Please visit this page to view the current openings.

People

Matteo Chinazzi
Research Associate Professor

Matteo Chinazzi is a Research Associate Professor at Northeastern University (Department of Physics), Roux Institute member, and Core Faculty at the Network Science Institute. He conducts research at the intersection between network science, data science, epidemiology, economics, and artificial intelligence. His research interests include: a) the development of computational and analytical models to study and forecast the spatial spread of infectious diseases; b) the development of agent-based models to create realistic representations of population dynamics; c) the study of human mobility and contact patterns using high-resolution large-scale de-identified location data; d) the development of computational frameworks that combine mechanistic epidemic models with machine learning/deep learning models; and e) the study of the evolution and structure of science and innovation.

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Guillaume St-Onge
Research Assistant Professor

Guillaume St-Onge is a Research Assistant Professor in the Department of Physics and a member of the Roux Institute. He works on mathematical and computational methods to model the spatial dynamics of infectious diseases, focusing on epidemic forecasts, pandemic preparedness, and global biosurveillance. His research includes the study of nonlinear systems, stochastic processes, complex networks, and human dynamics.

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Mariah Boudreau
Postdoctoral Researcher

Mariah Boudreau (she/her) is a Postdoctoral Researcher in the MOBS Lab and a member of the Roux Institute. Her current research focuses on mathematical and computational methods for stochastic dynamics of infectious disease. She received a bachelor's of science from Saint Michael's College where she studied Mathematics and her Ph.D. from the University of Vermont where she studied Mathematical Sciences.

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Mehdi Zahedi
Physics PhD Student

Mehdi is a Northwestern University graduate with a background in Electrical Engineering, Physics and Artificial Intelligence. He is interested in research applying to AI/Machine learning in Epidemiology and Social Sciences. His research within the MOBS lab involves time series forecasting, simulation based inference, surrogate and generative models and Bayesian optimizations.

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Andy (Yicheng) Zhang
Network Science PhD Student

Andy (he/him) was a research assistant contributing to the development of an existing agent-based model that simulates the COVID-19 outbreak in Massachusetts and analyzes high-resolution mobility data (SafeGraph and Cuebiq) under the supervision of Dr. Matteo Chinazzi. He had a bachelor's degree in Statistical Science from the University of California, Santa Barbara, and a Master's degree in Bioinformatics & Data Analytics from the Northeastern University. Before joining as a Research Assistant, he worked as a research co-op student at NetSI with Dr. Jessica Davis and Dr. Brennan Klein. He is now a current PhD student attending the Network Science Institute! 

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Ankit Ramakrishnan
Research Assistant

Ankit is a Computer Science M.S. graduate from Northeastern University, specializing in Natural Language Processing, Algorithms, HCI, and Programming Languages. His interests span Software System Design, Data Analysis, Computational Social Science, Digital Humanities, and Art. At the Network Science institute he is working under the leadership of Dr. Matteo Chinazzi on using large scale location data for epidemiological modeling and analysis.

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Son Nguyen
Co-op Student

Son (pronounced “sern”) is a senior at Northeastern University currently pursuing a Bachelor of Science in Computer Science. He is passionate about building efficient digital solutions, especially in web development. Having worked on several projects and experiences in React, Node.js, and full stack development, Son is committed to crafting responsive, scalable, and secure web applications. Son is currently working as a Web Developer Co-op at the Network Science Institute. Outside of work, he enjoys watching the NBA, playing basketball and hitting the gym.

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Elijah Sandler
Co-op Student

Eli (he/they) is an undergraduate student at Northeastern University studying Data Science and Philosophy, with interests in algorithmic ethics, bias, and game theory. He has worked on applying the philosophical method to data driven projects from all walks of life, from sports predictions to criminal justice.

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Vithya Srikumar
Co-op Student

Vithya Srikumar is a third-year Computer Science and Behavioral Neuroscience major at Northeastern University. She is currently working as a Software Engineer Co-op with Professor Matteo Chinazzi to maintain and further develop a computational pipeline used to generate real-time epidemic forecasts. In her free time, Vithya enjoys trying new foods, spending time with friends, and playing piano and violin.

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NetSI-London
The London hub will serve as a dynamic platform fostering the seamless exchange of knowledge and expertise between the United States and Europe. Its purpose extends beyond traditional collaboration; it serves as a key centre where students and scholars can effortlessly connect and collaborate across geographical boundaries.

In addition to bringing fresh perspectives and innovative methodologies into established research domains like network epidemiology and fundamental network science, the research conducted in London is primed to catalyze growth in pivotal areas such as:
(i) Urban dynamics and Computational Social Science,
(ii) Networks and AI, and
(iii) Network neuroscience.

The London hub combines data-driven discovery and principled model and methods development in order to address challenges with global implications, undertaking action-driven research that makes a real-world difference.

JK Rofling

People

Nandini Iyer

Nandini Iyer is a postdoctoral research assistant at the Complex Connections Lab in Northeastern University London. She holds a Bachelor’s degree in Computer Science from the University of Illinois at Urbana-Champaign. She joined the BioComplex Lab at the University of Exeter during her PhD. Her doctoral research lies in the intersection of socioeconomic inequality, human mobility, and public transportation systems, focusing on transport poverty in various urban contexts. She is particularly interested in understanding how different forms of data can be combined to identify mechanisms that catalyse socioeconomic disadvantage.

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Henrique M. Borges

Henrique is a PhD candidate in Network Science working under Prof. Giovanni Petri at NetSI London. His research interests lie at the intersection of network science, statistical physics, data science, and dynamical systems. By combining empirical methods (designing of laboratorial experiments and data analysis of both experiments and real-life data) with theoretical approaches (analytical and computational modeling of multi-agent systems), he aims to explore the emergent properties of complex systems. In his PhD project, he seeks to understand the origin and impact of group interactions on coordination, communication, and decision-making.

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Raj Deshpande

Raj is a first-year PhD student under the supervision of Prof. Giovanni Petri at NetSI London. His research interests include understanding the properties that allow neural networks to generalize and how symmetries arise in them. He graduated with a BEng in Mechatronics and Robotics Engineering from the University of Birmingham and a MSc in Cognitive and Computational Neuroscience from the University of Sheffield.

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Kevin Teo

Kevin is a PhD student in the Network Science Institute at Northeastern University London, supervised by Prof. István Kiss. His research focuses on the systematic analysis of techniques in modeling temporal networks. Previously, he did his Master’s in Physics and Theoretical Physics at Imperial College London.

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Federico Malizia

Federico is a physicist with a PhD in Complex Systems from the University of Catania, Italy. His research interests are in complex networks, epidemic processes, group dynamics and computational social science.

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José Andrés Guzmán Morán

Andrés is a PhD student at the Network Science Institute supervised by Prof. István Kiss. He has a Bachelor degree in Physics and a Master’s degree in Computational Mathematics by the University of São Paulo.

His research focuses on inferring techniques to reveal network properties and disease parameters from epidemic data.

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Marko Lalovic

Marko is a first-year PhD student at the Network Science Institute, supervised by Prof. István Kiss. He holds a Bachelor's degree in Computer Science and Mathematics from the University of Ljubljana and a Master's degree in Industrial Mathematics from the University of Hamburg. His research interests include optimization, graph theory, and algorithms, with a particular focus on their applications in network science.

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Gavin Rolls

Gavin is a PhD student at NetSI London, supervised by Riccardo Di Clemente. His research interests include segregation and inequality in cities, mobility and transport, and urban morphology. Prior to Northeastern, he completed his MSc in Urban Spatial Science at the Centre for Advanced Spatial Analysis, University College London.

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Davide Longo

Davide is a PhD student in Network Science at Northeastern University London, supervised by Prof. Riccardo Di Clemente. His research focuses on healthcare analytics, applying network science to improve decision-making and outcomes in healthcare. He holds a bachelor’s degree in psychology and a Master’s in Data Science from the University of Trento, where he interned at the Mobile and Social Computing Lab at the Bruno Kessler Foundation.

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Giuseppe Varavallo

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Leonardo Federici

Leonardo is a PhD student at the Network Science Institute at Northeastern University of London, under the supervision of Prof. Iacopo Iacopini. He holds a Bachelor's degree in Mathematics from the University of Roma Tor Vergata and a Master's degree in Mathematics from the University of Turin. His research interests include the theoretical foundations of higher-order networks and the application of algebraic topology in their analysis, as well as their use in modeling critical phenomena and dynamics within group interactions in social systems.

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Justin Wang Ngai Yeung

Justin is a 1st year PhD student at the Network Science Institute (London) supervised by Prof. Riccardo di Clemente and Prof. Andrew Hone. Using network science and machine learning techniques, his work focuses on characterizing, modelling and inferring complex human interactions in very large real-world systems. Prior to joining NetSI, Justin received his MSc Social Data Science at the Oxford Internet Institute (OII), University of Oxford working on data quality problems and its impacts on covert network interventions.

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István Z. Kiss
Professor

István Z. Kiss is a Professor in the Network Science Institute at Northeastern University London. His research is at the interface of network science, dynamical systems and stochastic processes, and concerns both theoretical and data-driven problems. Examples include network inference, exactness of mean-field models, temporal and higher-order networks, adaptive/dynamic networks, resilience of power networks and the study of spreading processes in general.

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István Z. Kiss is a Professor of Applied Mathematics. His research is at the interface of network sciences, dynamical systems and stochastic processes. In particular, he focuses on dynamical processes on static and dynamic networks, using mainly epidemic models. He is working on developing theoretical models that capture complexities arising in real networks, such as heterogeneity in the characteristics, behaviour and interaction of individuals, as well as higher-order network structure. He contributed significantly to: (a) identifying links between approximate models and their rigorous mathematical counterpart, (b) proving the exactness of certain epidemic models on tree-like networks, (c) highlighting linkages between various modern epidemic models, and (d) extending modelling to more realistic networks exhibiting clustering and motifs. He has also worked on applications of network science to areas such as the spread of innovations, livestock diseases, neuronal networks, network inference, spread of COVID19 involving vulnerable people such as single household parents and those receiving domiciliary care, with more recent work focusing on power and shipping networks.

Following a PhD in Applied Mathematics from University of Leeds, Prof Kiss has completed a four year position as a postdoctoral research fellow at the University of Oxford where he used network science to develop data-driven models of the spread of foot and mouth disease and other livestock diseases, such as scrapie and bovine TB.

Prof Kiss has also fulfilled a few important administrative roles at University of Sussex; namely he was the Director of Research and Knowledge in the School of Mathematical and Physical Sciences (Aug 2019 – July 2022) and was heavily involved in an extremely successful REF2021 (Research Excellence Framework 2021, UK) for both Mathematics and Physics Departments. Previously, he was the Impact and Knowledge Exchange Lead in Mathematics and was responsible for identifying and managing the completion of a suite of impact case studies which are an integral part of the REF submission. More recently, he acted as the Director of Research in Mathematics (September 2022 - May 2023). He is also a Fellow of HEA (Higher Education Academy, 2010 - present) and in recognition of the quality of his teaching he has won Teaching Awards at Sussex in 2010, 2014 and 2022.

He has published over 100 papers in peer-reviewed conferences and journals, four book chapters, and a monograph titled “Mathematics of network epidemics: from exact to approximate models” in the Interdisciplinary Applied Mathematics series of Springer (2017).

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Mathematics of epidemics on networks
Kiss, István Z., Joel C. Miller, and Péter L. Simon.
Cham: Springer 598 (2017): 31.

Exact epidemic models on graphs using graph-automorphism driven lumping
Simon, Péter L., Michael Taylor, and Istvan Z. Kiss.
Journal of mathematical biology 62 (2011): 479-508.

The network of sheep movements within Great Britain: network properties and their implications for infectious disease spread
Kiss, Istvan Z., Darren M. Green, and Rowland R. Kao.
Journal of the Royal Society Interface 3.10 (2006): 669-677.

The impact of information transmission on epidemic outbreaks
Kiss, Istvan Z., et al.
Mathematical biosciences 225.1 (2010): 1-10.

Exact equations for SIR epidemics on tree graphs
Sharkey, Kieran J., et al.  
Bulletin of mathematical biology 77 (2015): 614-645.

Giovanni Petri
Professor

Giovanni Petri is a Professor in the Network Science Institute at Northeastern University London. His research spans the analysis of neuroimaging data and AI systems with topological techniques, the formalization of cognitive control models with tools of statistical mechanics and network theory, and the study of the predictability of socio-technical systems.

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Giovanni Petri is a Professor at the Network Science Institute, Northeastern University London. With a broad background in theoretical physics and applied mathematics, he has successfully applied his expertise to address various research areas, including network science and higher-order systems, dynamical processes, with a particular focus on neuroimaging, computational neuroscience, and, more recently, artificial intelligence.

Alongside these core topics, his research also encompasses the study of group dynamics in social systems, novel methods for parsimonious feature selection, and information-theoretic limits to predicting complex systems. He has collaborated with researchers from diverse disciplines, including mathematicians, physiologists, psychologists, network neuroscientists, epidemiologists, and computer scientists.

Giovanni Petri has authored over 50 peer-reviewed articles in high-impact interdisciplinary journals such as Science, Nature Physics, Physical Review Letters, Nature Communications, Neuroimage, and the Journal of Neuroscience. Major contributions include a review and a perspective on higher-order systems, the topological functional structure of altered brain states,   a temporal model of simplicial interactions to describe the effects of group interactions in social spreading processes, a graph-theoretic approach to cognitive control to multitasking capacity, and the discovery of the evolutionarily conserved role of oxytocin for social contagion.   He guest-edited a special issue of "Network Neuroscience" dedicated to topological applications in brain networks (in collaboration with Prof. M. Kringelbach and Dr. Paul Expert) and co-edited the book "Higher-order Systems" (with Prof. F. Battiston) for the Springer Nature series "Understanding Complex Systems".  

Giovanni Petri obtained his PhD from Imperial College London in 2012 studying the mathematics of complex networks. He then joined ISI Foundation as a postdoctoral researcher working on the topological structure of complex systems.  Since 2016, Giovanni Petri has led his own lab, initially as a Senior Research Scientist at ISI Foundation and then as a Principal Researcher at CENTAI Institute.

He mentored and supervised 6 postdocs, 2 PhD students, 2 junior researchers, and 13 MSc and BSc students. Additionally, he leads a working group focused on the topology of learning systems, attracting participants from various research labs and institutions. To fund his research, he has secured both large grants, such as the 3-year ADnD project (Compagnia San Paolo) and the 5-year grant from Project CETI, as well as smaller grants targeting specific objectives.

Beyond his research, Giovanni Petri is committed to open reproducible science, scientific outreach, and public engagement. Together with his group and collaborators, he has developed and distributed a set of open-source tools for topological data analysis (TDA) and modeling (Holes, SCM, DyNeuSR, XGI), aiming to lower the entry barrier to TDA and network inference for scientists from non-mathematical or non-computational disciplines.He has organized multiple workshops, satellite meetings, and conferences to bridge disciplinary gaps and foster collaboration. This includes conducting a TDA crash course at the Applied Machine Learning Days 2019, organizing a series of satellite meetings (TopoNets) at both the NetSci conference and Conference on Complex Systems since 2014, and co-organizing the annual CCS Warm Up school, aimed at young researchers in complex systems, which is still ongoing.

In 2018, he served as a co-organizer of "ATMCS7: Conference on Algebraic Topology: Methods, Computation, and Science".
To enhance public awareness and build communities around scientific topics, he initiated initiatives such as Databeers Torino, which brings together individuals interested in data science through engaging talks and networking events. He has actively participated in other outreach initiatives, including Pint for Science."

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The physics of higher-order interactions in complex systems
Federico Battiston1, Enrico Amico, Alain Barrat, Ginestra Bianconi, Guilherme Ferraz de Arruda, Benedetta Franceschiello, Iacopo Iacopini, Sonia Kéfi, Vito Latora, Yamir Moreno, Micah M. Murray, Tiago P. Peixoto, Francesco Vaccarino and Giovanni Petri
Nature Physics
volume 17, pages1093–1098 (2021)

Topological limits to the parallel processing capability of network architectures
Giovanni Petri, Sebastian Musslick, Biswadip Dey, Kayhan Özcimder, David Turner, Nesreen K. Ahmed, Theodore L. Willke, and Jonathan D. Cohen
Nature Physics
volume 17, pages646–651 (2021)

Evolutionarily conserved role of oxytocin in social fear contagion in zebrafish
Ibukun Akinrinade, Kyriacos Kareklas, Magda C. Teles1, Thais K. Reis, Michael Gliksberg, Giovanni Petri, Gil Levkowitz, Rui F. Oliveira
Science 379, 1232–1237 (2023)

Homological scaffolds of brain functional networks
Petri G, Expert P, Turkheimer F, Carhart-Harris R, Nutt D, Hellyer PJ, Vaccarino F.
J. R. Soc. Interface 11: 20140873. (2014)

Simplicial models of social contagion
Iacopo Iacopini, Giovanni Petri, Alain Barrat, & Vito Latora
Nature Communications
volume 10, Article number: 2485 (2019)

Marilyn Gatica
Postdoctoral Researcher

Marilyn is a Postdoctoral Research Assistant in the Network Science Institute at Northeastern University London. She has explored a wide range of scientific questions, including healthy aging, frontotemporal dementia, and the effects of transcranial ultrasound stimulation, a novelty non-invasive neuromodulation technique. Her research has integrated data analysis with multivariate information theory, statistics, machine learning, and whole-brain modeling.

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Marilyn is a Postdoctoral Research Assistant in the Network Science Institute at Northeastern University London. Her research interests extend to several clinical challenges, including health, life expectancy, neurodegenerative diseases, and psychiatric disorders.

Marilyn is a mathematician with a dissertation applied to computational neuroscience. She obtained a double Ph.D. in Biophysics and Computational Biology at the University of Valparaíso in Chile and Biomedical Research at the Basque Country University in Spain. Continuing her academic journey, Marilyn worked as a postdoctoral researcher at the University of Nottingham. During her research, she has characterized and modeled the brain pattern organization using high-order interdependencies analysis in fMRI, distinguishing redundancy- and synergy-dominated interactions that play crucial roles in neural dynamics.

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High-order functional interactions in ageing explained via alterations in the connectome in a whole-brain model
Marilyn Gatica, Fernando E. Rosas, Pedro A.M. Mediano, Ibai Diez, S.P Swinnen, Patricio Orio, Rodrigo Cofré, and Jesus M. Cortés
PLOS Computational Biology, 8(9):e1010431

High-order interdependencies in the aging brain
Marilyn Gatica, Rodrigo Cofré,  Pedro A.M. Mediano, Fernando E. Rosas,  Patricio Orio, Ibai Diez, S.P. Swinnen, Jesus M. Cortes
Brain connectivity, Vol. 11, No. 9, 2021

Chaos versus noise as drivers of multistability in neural networks
Patricio Orio, Marilyn Gatica, Rubén Herzog, Jean Paul Maidana, Samy Castro, Kesheng Xu
Chaos: An Interdisciplinary Journal of Nonlinear Science, 28, 106321, 2018

Zsófia Zádor
Postdoctoral Researcher

Zsófi Zádor was promoted to Assistant Professor in International Business while maintaining her affiliation with the Network Science Institute at Northeastern University London. She received her PhD from the University of Greenwich, where she focused on international trade networks. Her research interests encompass economic networks, city science, and inequality in human dynamics. Currently, she explores these topics in two ways: first, by investigating how remote work influences the working habits of people in different industries and roles; and second, by examining how public transport impacts social interactions and accessibility within cities.

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A Weighted and Normalized Gould–Fernandez brokerage measure
Zádor Z, Zhu Z, Smith M, Gorgoni S (2022)
PLOS ONE 17(9): e0274475.

Riccardo Di Clemente
Associate Professor

Riccardo Di Clemente is an Associate Professor in the Network Science Institute at Northeastern University London. Riccardo develops mathematical frameworks to analyze and model the complex social connections that govern human behavior and interactions within cities and online. His research utilizes network theory, complex systems computational social science, and machine learning methods to investigate the digital footprints left by individuals in their daily routines.

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Riccardo Di Clemente is an Associate Professor at Northeastern University London, Core Faculty at NetSI Northeastern Univesity, Alan Turing Fellow of The Alan Turing Institute, and Visiting Professor at Sony Computer Science Lab Paris.

Riccardo obtained his undergraduate B.Sc. & M.Sc. degrees in physics at Sapienza University of Rome. He received his Ph.D. Europaeus in Economics (at IMTLucca, Italy with visiting Institution INET@Oxford) where he applied Complex Systems tools to Economics and Social system. Afterward, he completed his postdoctoral research at the Institute of Complex Systems in Rome and then at Civil and Environmental Engineering department of MIT in Boston. He has been awarded the Newton International Fellowship of the Royal Society in applied mathematics, he was hosted by the Centre for Advance Spatial Analysis (CASA) at University College London UCL. Before joining Northeastern University London, Riccardo was a lecturer in Data Science at the Computer Science Department of the University of Exeter.

Riccardo has been a consultant for the World Bank, he led projects in collaboration with companies and ONG (Bill & Melinda Gates Foundation, and Data2x) to develop fine-tuned data-driven solutions for policymaking in developing countries.

Riccardo is leading a multidisciplinary research group at Complex Connection Lab at Northeastern University. Riccardo's team develops innovative mathematical frameworks to analyze and model the complex social connections that govern human behavior and interactions within cities and online. Riccardo's research utilizes network theory, complex systems computational social science, and machine learning methods to investigate the digital footprints left by individuals in their daily routines.

Riccardo's research questions are built in close relationships with data providers and institutions. Using mobile phone data we decoupled the changes in human mobility across the UK during the Covid-19 health crisis; provided data-driven approaches for spatial planning, poverty reduction, and disaster resilience in developing countries such as Nigeria and Mexico. Leveraging Credit Card Data we identify socio-economic lifestyles within cities in developing countries and define gender economic and spatial routines in cities.

Currently, Riccardo's Lab is developing new Complex Systems and Machine Learning models to capture digital human traces to understand urban segregation. Additionally, they are studying the structure of social network conversations, to observe how major events affect society, conversation patterns, and users' interactions with respect to unperturbed discussion patterns.

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Changes in the time-space dimension of human mobility during the COVID-19 pandemic
Santana C., Botta F., Barbosa H., Privitera F.,Menezes R. & Di Clemente, R.
TBP Nature Human Behaviour
(2023) [pdf]

Self-induced consensus of Reddit users to characterise the GameStop short squeeze
Mancini, A., Desiderio, A., Di Clemente, R. & Cimini, G.,
Scientific Reports, 12, 13780 (2022) [pdf]

Sequences of purchases in credit card data reveal life styles in urban populations
Di Clemente, R., Luengo-Oroz, M., Travizano, M., Xu, S., Vaitla, B. & González, M.C.,
Nature Communications, 9, 3330 (2018) [pdf]

Inequality is rising where social network segregation interacts with urban topology
Tóth, G., Wachs, J., Di Clemente, R., Jakobi, A, Kertész, J, & Lengyel, B.
Nature Communications, 12, 1143 (2021) [pdf]

Understanding European Integration with Bipartite Networks of Comparative Advantage
Di Clemente, R., Lengyel, B., Andersson, L-F & Eriksson, R
PNAS Nexus, 1, 5, pgac262 (2022) [pdf]

Andreia Sofia Teixeira
Associate Professor

Andreia Sofia Teixeira is an Associate Professor in the Network Science Institute at Northeastern University London. Sofia’s work is in the intersection of Network Science and Machine Learning, focusing on developing measures, computational models, and simulation frameworks to better understand the structure and dynamics of complex systems in domains such as computational social sciences, computational epidemiology, network neuroscience, health, cryptoeconomics, evolutionary game theory, among others.

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Iacopo Iacopini
Assistant Professor

Iacopo Iacopini is an Associate Professor in the Network Science Institute at Northeastern University London. His research interests are in the area of complex networks and computational social sciences, with a focus on behavioural contagion, discovery processes, group and team dynamics.

Biography

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Iacopo Iacopini is an Assistant Professor in the Network Science Institute at Northeastern University London. His research interests are in the area of complex networks and computational social science, with a focus on adoption processes, seeding/targeting strategies, and group and team dynamics. In parallel to his core research on human behaviour, he is also working on urban networks and animal social networks.

Iacopo combines theoretical developments with empirical analyses to study the role of social interactions in the dynamics of behavioural contagion, group formation and coordination, norm emergence, discovery, and innovation. His major contributions include studies on the emergence of novelties from random processes of network exploration, and how social interactions can affect their pace of discovery. Going beyond pairwise networks, Iacopo investigated the impact of group interactions on social dynamics, showing how higher-order approaches can lead to critical mass effects, sustain social contagion, and help minorities of committed individuals to overturn social conventions. He co-authored a major review and a perspective article on higher-order networks. For his early-career contributions to complexity science, he received the Emerging Researcher Award from the Complex System Society.

A physicist by training, Iacopo holds a PhD in Mathematics from Queen Mary University of London, where he worked across the Complex Systems and Networks and the Dynamical Systems and Statistical Physics groups. Prior to joining Northeastern London, he was awarded the JSMF Postdoctoral Fellowship by the James S. McDonnell Foundation, hosted at the Department of Network and Data Science at Central European University. He has held research positions at the Centre de Physique Théorique of Aix-Marseille University, at the Urban Dynamics Lab of the Centre for Advanced Spatial Analysis at University College London, and at The Alan Turing Institute --the UK national institute for Data Science and Artificial Intelligence. Previously, he worked at the ISI Foundation and at the United Nations - Universal Postal Union as a Data Scientist.

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Network dynamics of innovation processes
Iacopini, I., Milojević, S., & Latora, V. (2018).
Physical Review Letters, 120(4), 048301. 

Interacting discovery processes on complex networks
Iacopini, I., Di Bona, G., Ubaldi, E., Loreto, V., & Latora, V. (2020).
Physical Review Letters, 125(24), 248301.

Simplicial models of social contagion
Iacopini, I., Petri, G., Barrat, A., & Latora, V. (2019).  
Nature Communications, 10(1), 2485. 

Non-selective distribution of infectious disease prevention may outperform risk-based targeting
Steinegger, B., Iacopini, I., Teixeira, A. S., Bracci, A., Casanova-Ferrer, P., Antonioni, A., & Valdano, E. (2022).  
Nature Communications, 13(1), 3028. 

Group interactions modulate critical mass dynamics in social convention
Iacopini, I., Petri, G., Baronchelli, A., & Barrat, A. (2022).  
Communications Physics, 5(1), 64.