90730 - SOCIAL NETWORK ANALYSIS

Anno Accademico 2024/2025

  • Docente: Saverio Giallorenzo
  • Crediti formativi: 6
  • SSD: INF/01
  • Lingua di insegnamento: Inglese

Conoscenze e abilità da conseguire

L'obiettivo del corso è quello di esaminare i modelli, metodi e temi essenziali dell'analisi delle reti sociali, comprendendo anche le information networks, dove più in generale nodi e links rappresentano rispettivamente dati e relazioni fra dati. La prima parte è dedicata ai metodi d'analisi basati sul confronto fra reti reali e random graphs, con enfasi su configuration model e modularity clustering. La seconda parte è dedicata ai metodi objective function-based e ai modelli fuzzy per module/community detection, con focus sul cluster score dei sottoinsiemi di vertici quantificato da funzioni pseudo-Booleane.

Contenuti

The programme is the same for both attending and non-attending students:

Introduction to Network Analysis, gentle introduction to the field of network analysis and its usages in other fields of research (e.g., computer science, forensics, archeology, literature, history, science of religion, etc.).

Research Design and How to Read a (Network Analysis) Research Paper: introduction to the scientific publication process, elements of research papers (on network analysis), research design, analysis of research papers.

Mathematics of Networks: networks and their representation, types of networks, graph representations, paths and components, adjacency matrices and matrix representations, ways and modes, operations on Matrices.

Data Collection and Data Management: network questions, data collection and reliability, data formats and transformation, algorithms and software for network analysis and visualisation.

Measures and Metrics, Nodes: kinds of measures, multi-category nominal scales, ordinal and scalar measures, centrality, degree and other kinds of centrality (e.g. Google's PageRank), hubs and authorities, closeness and betweenness centrality, groups of nodes (cliques, cores, components and k-components), clustering and clustering coefficients, reciprocity and similarity, structural and other types of equivalence, homophily and types of assortative mixing.

Testing Hypotheses: the role of hypotheses in the scientific method, testing hypotheses in network analysis, permutation tests, dyadic hypotheses.

Measures and Metrics, Networks: small-world effects, degree distribution, power laws and scale-free networks, visualisation and properties of power-law distributions, local-clustering coefficient, cohesion, reciprocity, transitivity and the clustering coefficient, triad census, centralisation and core-periphery indices, centrality, random graphs, means on edges and degree, degree distribution, giant and small component(s), locally tree-like networks.

Network Visualisation: the importance of network visualisation, graph-layout algorithms, embedding node attributes, node filtering, visualising ego networks, embedding tie characteristics, tie strengths, visualising network change.

Handling Large Networks: reducing the size of the problem, eliminating edges, pruning nodes, divide and conquer, aggregation, sampling, small-world and scale-free networks.

 

Students with specific learning disorders (SLD) or temporary/permanent disabilities should contact the appropriate University office (https://site.unibo.it/studenti-con-disabilita-e-dsa/en) immediately and agree with the teacher the most effective strategies for attending the lectures and preparing for the exam.

Testi/Bibliografia

Lecture Notes, Research Papers, and datasets provided by the teacher.

Main references:

Newman, M. (2018). Networks. Oxford university press. Recommended chapters: 1 (+ one or more among 2, 3, 4, 5), 6, 7, 10, 11.

Borgatti, S. P., Everett, M. G., & Johnson, J. C. (2018). Analyzing social networks. Sage. Recommended chapters: 1–8.

Additional references:

Wasserman, S., & Faust, K. (1994). Social network analysis: Methods and applications (Vol. 8). Cambridge university press.

Watts, D. J. (2004). Six degrees: The science of a connected age. WW Norton & Company.

Koch, R., & Lockwood, G. (2011). Superconnect: Harnessing the power of networks and the strength of weak links. Random House Digital, Inc..

Barabasi, A. L. (2014). Linked-how Everything is Connected to Everything Else and what it Means F (pp. 1-1). Perseus Books Group.


Metodi didattici

In-person frontal teaching and in-person students seminars/flipped classrooms.

Modalità di verifica e valutazione dell'apprendimento

The exam’s hand-in consists of a report: a 5000-word PDF done by a group of 3–5 students, detailing the context, the problem/motivation, the data, the measures, and the results of the project that the students performed.

The report is the artefact evaluated for the exam and it is an essential tool for the students to check that they considered and reported on all the important aspects of their project study. The clear presentation/explanation of those aspects also forms the weighted partition that guides the grading, as listed below:

  • context, problem(s), motivation — 20%
  • dataset(s) and source(s), validity and reliability,
    applied measure/s and its/their justification, possible hypotheses and tests, results — 60%
  • interpretation of the overall results, critique (brief) — 20%

Please, refer to the website of the teacher for the exam description.

 

Students with specific learning disorders (SLD) or temporary/permanent disabilities should contact the appropriate University office (https://site.unibo.it/studenti-con-disabilita-e-dsa/en ) in advance. The office will be responsible for proposing adaptations to interested students. Such adaptations must be submitted to the teacher for approval at least 15 days before the exam session. The teacher will also evaluate the adaptations regarding the training objectives of teaching.

Strumenti a supporto della didattica

Network analysis software/packages (Ucinet, Gephi, NetworkX, Pajek, NodeXL) to analyse case studies, applying statistical measures and performing network visualisations.

Link ad altre eventuali informazioni

https://saveriogiallorenzo.com/teaching#na

Orario di ricevimento

Consulta il sito web di Saverio Giallorenzo

SDGs

Istruzione di qualità Parità di genere Lavoro dignitoso e crescita economica Ridurre le disuguaglianze

L'insegnamento contribuisce al perseguimento degli Obiettivi di Sviluppo Sostenibile dell'Agenda 2030 dell'ONU.