Capsule Network-Based Multimodal Fusion for Mortgage Risk Assessment from Unstructured Data Sources

Mortgage risk assessment traditionally relies on structured financial data, which is often proprietary, confidential, and costly. In this study, we propose a novel multimodal deep learning framework that uses cost-free, publicly available, unstructured data sources, including textual information, images, and sentiment scores, to generate credit scores that approximate commercial scorecards. Our framework adopts a two-phase approach. In the unimodal phase, we identify the best-performing models for each modality, i.e. BERT for text, VGG for image data, and a multilayer perceptron for sentiment-based features. In the fusion phase, we introduce the capsule-based fusion network (FusionCapsNet), a novel fusion strategy inspired by capsule networks, but fundamentally redesigned for multimodal integration. Unlike standard capsule networks, our method adapts a specific mechanism in capsule networks to each modality and restructures the fusion process to preserve spatial, contextual, and modality-specific information. It also enables adaptive weighting so that stronger modalities dominate without ignoring complementary signals. Our framework incorporates sentiment analysis across distinct news categories to capture borrower and market dynamics and employs GradCAM-based visualizations as an interpretability tool. These components are designed features of the framework, while our results later demonstrate that they effectively enrich contextual understanding and highlight the influential factors driving mortgage risk predictions. Our results show that our multimodal FusionCapsNet framework not only exceeds individual unimodal models but also outperforms benchmark fusion strategies such as addition, concatenation, and cross attention in terms of AUC, partial AUC, and F1 score, demonstrating clear gains in both predictive accuracy and interpretability for mortgage risk assessment.