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[ARTICLE · art-48916] src=arxiv.org ↗ pub= topic=machine-learning verified=true sentiment=↑ positive

Federated Learning for Object Detection: Enabling Collaborative Drone Learning Without Centralizing Data

Researchers applied federated learning to object detection for drones, enabling collaborative model training without centralizing sensitive aerial imagery. Using the Sherpa.ai platform and YOLO26 nano model on the KIIT-MiTA dataset, the federated approach achieved relative mAP gains of 52.89% and 67.80% over single-drone training while preserving privacy.

read1 min views1 publishedJul 7, 2026

arXiv:2607.02636v1 Announce Type: new Abstract: Object detection is a fundamental capability for AI-driven perception in safety-critical drone and edge-vision systems, including disaster response, operational security environments, infrastructure monitoring and defense applications. Robust model performance in such environments depends on large, continuously updated datasets. However, training high-performing detectors typically requires centralizing aerial imagery, which raises privacy, regulatory, storage, and bandwidth challenges. This is especially problematic in distributed drone deployments, where visual data is generated onboard and is often impractical or undesirable to transfer to a centralized infrastructure. In this work, we apply Federated Learning (FL) for object detection, enabling drones to improve a shared model while keeping image data local and private. We implement a federated object detection pipeline using the Sherpa.ai FL platform on the KIIT-MiTA dataset, and compare it with Single-drone and Centralized baselines using mean Average Precision (mAP) at IoU thresholds of 0.50 and 0.50-0.95. In our experiments, the proposed FL approach remains close to Centralized training while dramatically improving over Single-drone training, with the best lightweight model (YOLO26 nano), suitable for deployment even on very limited edge infrastructure, achieving relative gains of 52.89% and 67.80% in mAP@0.50 and mAP@0.50:0.95, respectively. These results show that FL enables scalable, high-performing, and privacy-preserving object detection across distributed drone fleets without data centralization.

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