# Applying Computational Engineering Modeling to Analyze the Social Impact of Conflict and Violent Events

**Authors:** Felix Schwebel, Sebastian Meynen, Manuel García-Herranz

PMC · DOI: 10.3390/e27101003 · 2025-09-26

## TL;DR

This paper introduces a new computational model to study how conflict affects societies by simulating communities as elastic materials.

## Contribution

A novel framework using engineering principles to model conflict impacts, capturing indirect effects and context-specific vulnerabilities.

## Key findings

- The model successfully simulates how repeated conflict events propagate through communities.
- Application to Nigeria reveals patterns of spillover and nonlinear accumulation of conflict effects.
- The framework distinguishes structural vulnerability from external shocks in conflict analysis.

## Abstract

Understanding the societal impacts of armed conflict remains challenging due to limitations in current models, which often apply fixed-radius buffers or composite indices that obscure critical dynamics. These approaches struggle to account for indirect effects, cumulative damage, and context-specific vulnerabilities, especially the question of why similar events produce vastly different outcomes across regions. We introduce a novel computational framework that applies principles from engineering and material science to conflict analysis. Communities are modeled as elastic plates, “social fabrics”, whose physical properties (thickness, elasticity, coupling) are derived from spatial socioeconomic indicators. Conflict events are treated as external forces that deform this fabric, enabling the simulation of how repeated shocks propagate and accumulate. Using a custom Python-based finite element analysis implementation, we demonstrate how heterogeneous data sources can be integrated into a unified, interpretable model. Validation tests confirm theoretical behaviors, while a proof-of-concept application to Nigeria (2018) reveals emergent patterns of spillover, nonlinear accumulation, and context-sensitive impacts. This framework offers a rigorous method to distinguish structural vulnerability from external shocks and provides a tool for understanding how conflict interacts with local conditions, bridging physical modeling and social science to better capture the multifaceted nature of conflict impacts.

## Full-text entities

- **Diseases:** armed conflict (MESH:D001134)

## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12562815/full.md

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Source: https://tomesphere.com/paper/PMC12562815