# Vision-Language Guided Pseudo-Labeling for Multi-Label Waste Classification
> Asrul B.E.W.
URL kanonis: https://discover.unhas.ac.id/publications/pub_scopus_105041662138
Jurnal / Konferensi: Proceedings 2026 International Conference on Current Research in Artificial Intelligence and Data Science Iccraids 2026
Tahun terbit: 2026
DOI: https://doi.org/10.1109/ICCRAIDS67816.2026.11519578
Citations: 0
## Authors
- Asrul B.E.W.
## Abstract
Cost efficient multi-label waste recognition in canals is hindered by clutter, occlusion, and illumination variability, while exhaustive annotation remains costly. This paper proposes TGS a vision-language-guided pseudo-label curation framework that integrates a ConvNeXt-Tiny (Convolutional Neural Network Next Tiny) classifier with Grounding DINO (text-conditioned detection) and the Segment Anything Model (SAM) for spatial verification. In TGS, a ConvNeXt-Tiny teacher trained on a small labeled subset produces image-level confidences on unlabeled images; selected labels are converted into text prompts and verified by Grounding DINO to generate prompt-consistent regions, which are refined into pixel-level masks by SAM. The core novelty lies in SAM-based mask verification, which gates pseudo-label retention using pixel-level evidence rather than confidence-only or box-level cues. Pseudo-labels are retained only when region and mask evidence satisfy quality filters, then combined with human labels to train a student model within a Semi-Supervised Learning (SSL) loop. Experiments use a canal dataset from Makassar, Indonesia (855 images, 18 classes, 2,662 instances); after quality control, 769 images are retained, with a fixed 171image test set and labeled fractions of $5 \%, 10 \%$, and 20 % sampled from a 598-image development pool. At $\mathbf{1 0 \%}$ labeled data $(86 / 512 / 171)$, TGS achieves micro-averaged F1-score (micro-F1) 0.9393 with pseudo-label coverage 0.9199, improving reliability over naïve self-training (micro-F1 0.9376, coverage 0.9512) and outperforming FixMatch (micro-F1 0.9036). At 20 % labeled data, micro-F1 reaches 0.9581, approaching the fully supervised upper bound (0.9896). Future work will audit pseudo-label quality on a manually annotated subset, adopt class adaptive thresholds, and benchmark efficiency and robustness for real- time deployment.
## Keywords
- Computer science
- Identification (biology)
- Environmental science
- Product (mathematics)
- Waste management
- Engineering
- Feature (linguistics)
- Process (computing)
- Work (physics)
- Artificial intelligence
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Sumber: Discover Unhas — RIMS Universitas Hasanuddin.
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