 Comparative Evaluation of Gradient Compression Strategies for Communication-Efficient Federated Learning in Multi-Hospital Medical Image ClassificationMingxuan Han Journal of Sustainability, Policy, and Practice, 2026, vol. 2, issue 3, 13-25 Abstract: Federated learning enables privacy-preserving collaborative training across hospitals, yet the communication overhead of exchanging model parameters remains a critical deployment bottleneck. While gradient compression techniques have been extensively studied in distributed training, their effectiveness under the heterogeneous data distributions characteristic of multi-hospital settings is not well understood. This paper presents a controlled empirical comparison of six gradient compression strategies --- stochastic quantization (QSGD), ternary quantization (TernGrad), sign-based compression (signSGD), Top-K sparsification, Random-K sparsification, and a hybrid sparsification-quantization approach --- applied to federated medical image classification. Experiments are conducted on Fed-ISIC2019 with six natural hospital centers and PathMNIST with synthetic non-IID partitioning across five clients. Results indicate that Top-K sparsification with error feedback achieves the strongest accuracy--communication tradeoff, retaining 97.8% of the 200-round baseline accuracy at nominal 100× compression on Fed-ISIC2019. Multi-bit quantization methods remain more stable as data heterogeneity increases. Sign-based compression, evaluated under a different aggregation protocol (majority vote) than the other methods, degrades substantially under natural non-IID conditions. The hybrid approach performs strongly in the low-budget regime but introduces additional implementation complexity. Communication savings are reported as analytical estimates based on nominal compression ratios; protocol-level overhead would moderately reduce actual savings in deployment. These findings provide evidence-based guidance for healthcare institutions selecting compression strategies for bandwidth-constrained federated learning deployments. Keywords: federated learning; gradient compression; communication efficiency; medical image classification (search for similar items in EconPapers) Downloads: (external link) Related works: Export reference: BibTeX RIS (EndNote, ProCite, RefMan) HTML/Text Persistent link: https://EconPapers.repec.org/RePEc:dba:jsppaa:v:2:y:2026:i:3:p:13-25 Access Statistics for this article More articles in Journal of Sustainability, Policy, and Practice from Pinnacle Academic Press |
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