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Local Information for Global Network Estimation in Latent Space Models

Published 23 Feb 2025 in stat.ME | (2502.16504v1)

Abstract: In social networks, neighborhood is crucial for understanding individual behavior in response to environments, and thus it is essential to analyze an individual's local perspective within the global network. This paper studies how to utilize a partial information network centered around a given individual for global network estimation by fitting a general latent space model. Compared to the entire network, the partial information network contains a significant proportion of missing edges with its structure depending on a random, potentially sparse neighborhood, posing significant challenges for estimation. We address the challenges by proposing a projected gradient descent algorithm for maximizing the likelihood of the observed data and develop theoretical guarantees for its convergence under different neighborhood structures. Our convergence rates and estimation error bounds highlight the impact of bias in an individual's local view of the global network, and we further show that the bias can be quantified with an imbalance measure. Using simulated and real networks, we demonstrate the performance of our estimation method and how our approach enables researchers to gain additional insights into the structure of social networks, such as the tradeoff between degrees and imbalance.

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