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| Οικονομετρία Δικτύων (Επιδράσεις Ομοτίμων)× | Ανάλυση Κεντρικότητας× | Μέθοδος Εργαλειακών Μεταβλητών (IV) για Αιτιώδη Συμπερασματολογία× | Μοντέλο Χωρικής Υστέρησης (SAR / Χωρικό Αυτοπαλίνδρομο)× | |
|---|---|---|---|---|
| Πεδίο≠ | Οικονομετρία | Ανάλυση Δικτύων | Οικονομικά της Υγείας | Χωρική Ανάλυση |
| Οικογένεια≠ | Regression model | Process / pipeline | Process / pipeline | Regression model |
| Έτος προέλευσης≠ | 2009 | 1979 | 1990s (modern applications) | 1988 |
| Δημιουργός≠ | Yann Bramoullé, Habiba Djebbari & Bernard Fortin | Linton C. Freeman | Angrist & Pischke (applied econometrics); rooted in econometric theory | Anselin (textbook formalisation); LeSage & Pace |
| Τύπος≠ | Linear-in-means peer effects regression | Descriptive / exploratory network measure family | Method | Spatial autoregressive regression |
| Θεμελιώδης πηγή≠ | Bramoullé, Y., Djebbari, H., & Fortin, B. (2009). Identification of peer effects through social networks. Journal of Econometrics, 150(1), 41–55. DOI ↗ | Freeman, L.C. (1979). Centrality in Social Networks: Conceptual Clarification. Social Networks, 1(3), 215-239. DOI ↗ | Angrist, J. D., & Pischke, J. S. (2009). Mostly Harmless Econometrics: An Empiricist's Companion. Princeton: Princeton University Press. link ↗ | Anselin, L. (1988). Spatial Econometrics: Methods and Models. Kluwer Academic. DOI ↗ |
| Εναλλακτικές ονομασίες | Social Interactions Model, Peer Effects Model, Social Network Regression, Ağ Ekonometrisi | Merkeziyet Analizi (Degree, Betweenness, Eigenvector), node centrality, centrality measures, graph centrality | IV, two-stage least squares, TSLS, causal estimation | SAR model, spatial autoregressive model, spatial lag, Uzamsal Gecikme Modeli (SAR / Spatial Lag) |
| Συναφείς≠ | 3 | 5 | 3 | 5 |
| Σύνοψη≠ | Network econometrics estimates how individuals' outcomes are causally shaped by the behaviour and characteristics of their social-network neighbours. Formalised by Bramoullé, Djebbari, and Fortin (2009), the framework embeds a row-normalised adjacency matrix into a linear regression, separating endogenous peer effects (imitation of outcomes), exogenous contextual effects (influence of neighbours' attributes), and correlated effects (shared environment), while using network topology to construct valid instruments. | Centrality analysis is a family of network-analytic measures, formalized by Freeman (1979), that quantifies the structural importance of individual nodes within a graph. Each centrality index captures a distinct mechanism of influence: degree centrality reflects direct connectivity, betweenness centrality identifies nodes that broker information flow, closeness centrality captures proximity to all others, and eigenvector centrality (along with PageRank) rewards connection to highly connected neighbors. | Instrumental variables (IV) is an econometric method to estimate causal effects when treatment or exposure is not randomly assigned and confounding is severe or unmeasured. IV relies on a third variable (instrument) that influences treatment but does not directly affect the outcome, allowing researchers to isolate the causal effect from the noise of confounding. Developed extensively in econometrics (Angrist & Pischke, 1990s–2000s), IV methods are increasingly used in health economics and health services research to leverage natural experiments and policy changes. | The Spatial Lag Model is an autoregressive regression that assumes spatial dependence in the dependent variable itself: the outcome values of neighbouring units enter the model as an explanatory term (ρWy). It was formalised in Anselin's Spatial Econometrics (1988) and developed further by LeSage and Pace (2009), and it decomposes spillover effects into direct, indirect, and total impacts. |
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