Is Bigger Always Better? Efficiency Analysis in Resource-Constrained Small Object Detection
Abstract
Scaling laws assume larger models trained on more data consistently outperform smaller ones -- an assumption that drives model selection in computer vision but remains untested in resource-constrained Earth observation (EO). We conduct a systematic efficiency analysis across three scaling dimensions: model size, dataset size, and input resolution, on rooftop PV detection in Madagascar. Optimizing for model efficiency (mAP50 per unit of model size), we find a consistent efficiency inversion: YOLO11N achieves both the highest efficiency (24× higher than YOLO11X) and the highest absolute mAP50 (0.617). Resolution is the dominant resource allocation lever (+120% efficiency gain), while additional data yields negligible returns at low resolution. These findings are robust to the deployment objective: small high-resolution configurations are Pareto-dominant across all 44 setups in the joint accuracy-throughput space, leaving no tradeoff to resolve. In data-scarce EO, bigger is not just unnecessary: it can be worse.
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