Edge Radar Material Classification Under Geometry Shifts
arXiv cs.RO / 3/25/2026
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Key Points
- The paper proposes a lightweight mmWave radar material classification pipeline for ultra-low-power edge devices (TI IWRL6432) that uses compact range-bin intensity descriptors with an MLP for real-time inference.
- On the nominal training geometry, the classifier achieves a high macro-F1 score of 94.2%, supporting the viability of radar-based material awareness for robotics.
- Under realistic geometry shifts (e.g., sensor height changes and small tilts), the system exhibits a large performance degradation to about 68.5% macro-F1 due to intensity scaling and angle-dependent RCS effects.
- The authors analyze these out-of-distribution failure modes and recommend practical robustness improvements such as feature normalization, geometry augmentation, and motion-aware features.
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