Enterprise AI Analysis for Agricultural Injury Severity Prediction Using Integrated Data-Driven Analysis: Global Versus Local Explainability Using SHAP
Agricultural Injury Severity Prediction Using Integrated Data-Driven Analysis: Global Versus Local Explainability Using SHAP
Despite the agricultural sector's consistently high injury rates, formal reporting is often limited, leading to sparse national datasets that hinder effective safety interventions. To address this, our study introduces a comprehensive framework leveraging advanced ensemble machine learning (ML) models to predict and interpret the severity of agricultural injuries. We use a unique, manually curated dataset of over 2400 agricultural incidents from AgInjuryNews, a public repository of news reports detailing incidents across the United States. We evaluated six ensemble models, including Gradient Boosting (GB), eXtreme Grading Boosting (XGB), Light Gradient Boosting Machine (LightGBM), Adaptive Boosting (AdaBoost), Histogram-based Gradient Boosting Regression Trees (HistGBRT), and Random Forest (RF), for their accuracy in classifying injury outcomes as fatal or non-fatal. A key contribution of our work is the novel integration of explainable artificial intelligence (XAI), specifically SHapley Additive exPlanations (SHAP), to overcome the “black-box" nature of complex ensemble models. The models demonstrated strong predictive performance, with most achieving an accuracy of approximately 0.71 and an F1-score of 0.81. Through global SHAP analysis, we identified key factors influencing injury severity across the dataset, such as the presence of helmet use, victim age, and the type of injury agent. Additionally, our application of local SHAP analysis revealed how specific variables like location and the victim's role can have varying impacts depending on the context of the incident. These findings provide actionable, context-aware insights for developing targeted policy and safety interventions for a range of stakeholders, from first responders to policymakers, offering a powerful tool for a more proactive approach to agricultural safety.
Executive Impact Summary
1. **Advanced ML Models for Agricultural Safety**: The study successfully implemented an ensemble ML framework (GB, XGB, LightGBM, AdaBoost, HistGBRT, RF) to predict agricultural injury severity with high accuracy and F1-score, demonstrating the viability of using publicly available news reports for large-scale injury surveillance.
2. **SHAP-Powered Interpretability**: A key contribution is the integration of SHAP for both global and local interpretability, moving beyond "black-box" predictions to actionable, context-aware insights. This allows stakeholders to understand *why* certain outcomes are predicted.
3. **Key Injury Predictors Identified**: Global SHAP analysis revealed ROPS, helmet use, victim age, and injury agent as the most significant factors influencing injury severity.
4. **Context-Aware Interventions**: Local SHAP analysis illustrated how factors like geographic state ("State") and victim's role can have highly variable impacts on injury severity depending on the incident context, enabling highly targeted interventions for first responders, safety educators, and policymakers.
5. **Bridging the Data Gap**: The research addresses the challenge of sparse official injury data in agriculture by effectively leveraging unstructured news media reports, offering a reproducible framework for domains with limited surveillance data.
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Prediction Accuracy
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F1-Score (Balanced Performance)
SHAP-Powered
Interpretability Method
AgInjuryNews
Unique Data Source
Deep Analysis & Enterprise Applications
Select a topic to dive deeper, then explore the specific findings from the research, rebuilt as interactive, enterprise-focused modules.
Predictive Power of Ensemble ML Models
71% Average Accuracy Across ModelsOur study validates that advanced ensemble ML models (GB, XGB, LightGBM, AdaBoost, HistGBRT, RF) achieve high accuracy in predicting agricultural injury severity, overcoming data sparsity challenges.
| Approach | Benefits for Safety Interventions | Limitations |
|---|---|---|
| Traditional ML (Black Box) |
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| SHAP-Integrated Ensemble ML |
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Enterprise Process Flow
Data Collection & Pre-processing
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Ensemble ML Model Training
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Model Evaluation (Accuracy, F1-Score, ROC)
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Global SHAP Analysis (Key Factors)
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Local SHAP Analysis (Contextual Insights)
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Targeted Policy & Intervention Strategies
ROPS and Helmet Use: Proven Lifesavers
Global SHAP analysis consistently ranks **Rollover Protective Structures (ROPS)** and **helmet use** as top determinants of survival in agricultural incidents. This reinforces the importance of promoting and incentivizing these safety measures through policy and education.
Location and Role: Varied Impact
Local SHAP analysis reveals that factors like **geographic state** and **victim's role** (e.g., operator, bystander) have highly variable impacts on injury severity depending on the specific incident context. This demands localized, adaptive interventions rather than one-size-fits-all approaches.
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