Measuring biodiversity is crucial for understanding ecosystem health. While prior works have developed machine learning models for taxonomic classification of photographic images and DNA separately, in this work, we introduce a multimodal approach combining both, using CLIP-style contrastive learning to align images, barcode DNA, and text-based representations of taxonomic labels in a unified embedding space. This allows for accurate classification of both known and unknown insect species without task-specific fine-tuning, leveraging contrastive learning for the first time to fuse DNA and image data. Our method surpasses previous single-modality approaches in accuracy by over 8% on zero-shot learning tasks, showcasing its effectiveness in biodiversity studies.
CLIBD: Bridging Vision and Genomics for Biodiversity Monitoring at Scale
A multimodal classification approach using CLIP-style contrastive learning integrates images and DNA barcodes, achieving enhanced accuracy over single-modality methods in zero-shot biodiversity classification tasks.
- Year
- 2024
- Venue
- arXiv 2024
- Authors
- 7
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- Abstract onlyARXIV-DEFAULT
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- arxiv.org/abs/2405.17537v3ARXIV-DEFAULT
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