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Simulating Relational Event Histories to Assess Goodness-of-Fit and Develop Theories


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Relational event simulations can be used to assess the goodness-of-fit of relational event models and to develop and test social theories about interaction dynamics in social networks.
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The article introduces general frameworks to simulate relational event networks under the dyadic (Butts, 2008) and actor-oriented (Stadtfeld and Block, 2017) relational event models. It then demonstrates three key applications of these simulation frameworks:

  1. Assessing goodness-of-fit: Simulated sequences can be used to evaluate how well a fitted relational event model captures important network characteristics in the observed data, such as degree distributions, density, triadic structures, and inter-event time distributions.

  2. Developing theories: Relational event simulations provide a flexible tool to test and refine theoretical models about the social mechanisms driving interactions in social networks. Simulations can be used to study the emergence of social phenomena, evaluate boundary conditions of theories, and incorporate timing and dynamism into theoretical frameworks.

  3. Evaluating network interventions: Relational event simulations can be used to explore the temporal dynamics of social networks under different intervention scenarios, such as investigating how quickly networks respond to interventions, how long interventions need to be carried out to achieve desired outcomes, and whether the effects of interventions persist over time.

The article demonstrates the application of these simulation-based approaches using an email dataset from the Enron corporation and an example of simulating the Optimal Distinctiveness Theory of group formation.

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"The Enron email dataset contains approximately 5000 events from January 1, 2001 - August 30, 2001." "The simulation of the Optimal Distinctiveness Theory was conducted on a network of 30 actors with a binary attribute, with the proportion of actors with each attribute varied from 0.1 to 0.5."
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"Simulation-based methods can be used to assess model fit in an absolute sense by assessing whether important network characteristics in the data are also present in simulated data using the fitted model." "Relational event simulations can be a powerful tool to develop social theories by providing a way to test and refine theoretical models in a controlled and systematic way." "By simulating network interaction patterns across a range of parameter values or initial conditions, it can be assessed beyond which (combinations of) values the model starts to generate non-sensical or unrealistic dynamics."

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by Rumana Lakda... om arxiv.org 03-29-2024

https://arxiv.org/pdf/2403.19329.pdf
Simulating Relational Event Histories -- Why and How

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How can relational event simulations be extended to incorporate more complex network dynamics, such as time-varying actor attributes, network externalities, or multilayer interactions?

Relational event simulations can be extended to incorporate more complex network dynamics by introducing additional parameters and mechanisms into the simulation frameworks. Time-Varying Actor Attributes: To incorporate time-varying actor attributes, the simulation models can be modified to include dynamic changes in actor characteristics over time. This can involve updating actor attributes at each time step based on predefined rules or external factors. By allowing actor attributes to evolve over time, the simulations can capture the dynamic nature of social interactions and how they are influenced by changing individual characteristics. Network Externalities: Network externalities refer to the impact that an individual's actions have on the utility or value of other individuals in the network. To incorporate network externalities into relational event simulations, additional parameters can be introduced to model the effects of these externalities on event rates or actor behaviors. By considering how interactions between actors affect the overall network dynamics, the simulations can provide insights into the cascading effects of individual actions on the network as a whole. Multilayer Interactions: Multilayer interactions involve interactions between actors that occur across different layers or dimensions of a network. To simulate multilayer interactions, the simulation frameworks can be extended to include multiple layers of interactions, each representing a different type of relationship or interaction between actors. By modeling interactions across these different layers, the simulations can capture the complexity of social networks and how interactions in one layer may influence interactions in another layer. By incorporating these more complex network dynamics into relational event simulations, researchers can gain a deeper understanding of how social interactions evolve over time and how various factors influence the dynamics of social networks.

How can the insights gained from relational event simulations be used to inform the design of network interventions that are tailored to specific social contexts and desired outcomes?

The insights gained from relational event simulations can be valuable in informing the design of network interventions that are tailored to specific social contexts and desired outcomes. Identifying Key Network Characteristics: Relational event simulations can help identify key network characteristics that influence the dynamics of social interactions. By analyzing the simulated network structures and dynamics, researchers can pinpoint important factors such as network density, centrality measures, or clustering coefficients that impact the flow of information or behaviors within the network. Optimizing Intervention Strategies: Based on the insights from simulations, researchers can design intervention strategies that target specific network characteristics or key actors within the network. By understanding how changes in the network structure or dynamics affect the outcomes of interventions, tailored strategies can be developed to maximize the effectiveness of interventions. Predicting Intervention Outcomes: Relational event simulations fitted with predictive models can help researchers forecast the potential outcomes of network interventions. By simulating different intervention scenarios and analyzing their impact on network dynamics, researchers can make informed decisions about the most effective strategies to achieve desired outcomes in specific social contexts. Overall, the insights gained from relational event simulations can provide valuable guidance for designing network interventions that are customized to the unique characteristics and dynamics of a social network, leading to more targeted and successful intervention strategies.
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