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honeybee-samples

Tasks:
Image Classification
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honeybee-samples / README.md
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docs: add Hugo_symbols.tsv to file table + molecular tags
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metadata 
task_categories:
  - image-classification
  - feature-extraction
tags:
  - medical
  - pathology
  - radiology
  - clinical
  - molecular
  - multi-omics
  - oncology
  - whole-slide-image
  - dicom
  - multimodal
size_categories:
  - n<1K
pretty_name: HoneyBee Sample Files

HoneyBee Sample Files

Sample data and resource files for the HoneyBee framework — a scalable, modular toolkit for multimodal AI in oncology.

These files are used by the HoneyBee example notebooks (clinical, pathology, radiology) and by HoneyBee's molecular processing code at runtime (Hugo_symbols.tsv is fetched on first use of DNA mutation preprocessing).

Paper: HoneyBee: A Scalable Modular Framework for Creating Multimodal Oncology Datasets with Foundational Embedding Models Package: pip install honeybee-ml

Files

File Type Size Description
sample.PDF Clinical 70 KB De-identified clinical report (PDF) for NLP extraction
sample.svs Pathology 146 MB Whole-slide image (Aperio SVS) for tissue detection, patch extraction, and embedding
CT/ Radiology 105 MB CT scan with 2 DICOM series (205 slices total) for radiology preprocessing
Hugo_symbols.tsv Molecular 128 KB Hugo Gene Symbol vocabulary (17,312 symbols, one per line, no header) used by SeNMo's DNA mutation preprocessing. Ported from lab-rasool/SeNMo. Fetched automatically by honeybee.processors.molecular.preprocessing.preprocess_dna_mutation() on first use.

CT Directory Structure 

CT/
├── 1.3.6.1.4.1.14519.5.2.1.6450.4007.1209.../ (101 slices)
└── 1.3.6.1.4.1.14519.5.2.1.6450.4007.2906.../ (104 slices)

Citation 

Tripathi, A., Waqas, A., Schabath, M.B. et al. HONeYBEE: enabling scalable multimodal AI in
oncology through foundation model-driven embeddings. npj Digit. Med. 8, 622 (2025).
https://doi.org/10.1038/s41746-025-02003-4

If your work uses Hugo_symbols.tsv (the molecular sample), also cite the SeNMo paper that originally curated this vocabulary:

Waqas, A., Tripathi, A., Ahmed, S. et al. Self-Normalizing Multi-Omics Neural Network for
Pan-Cancer Prognostication. Int. J. Mol. Sci. 26, 7358 (2025).
https://doi.org/10.3390/ijms26157358