Name | DL | Torrents | Total Size | Joe's Recommended Mirror List [edit] | 233 | 8.28TB | 2086 | 0 | Computer Vision [edit] | 79 | 1.41TB | 567 | 0 | Medical [edit] | 87 | 2.20TB | 773 | 0 |
pcam (10 files)
camelyonpatch_level_2_split_valid_y.h5.gz | 3.04kB |
camelyonpatch_level_2_split_valid_x.h5.gz | 805.97MB |
camelyonpatch_level_2_split_train_y.h5.gz | 21.38kB |
camelyonpatch_level_2_split_valid_meta.csv | 1.85MB |
camelyonpatch_level_2_split_train_x.h5.gz | 6.42GB |
camelyonpatch_level_2_split_train_mask.h5.gz | 14.48MB |
camelyonpatch_level_2_split_train_meta.csv | 15.05MB |
camelyonpatch_level_2_split_test_y.h5.gz | 3.04kB |
camelyonpatch_level_2_split_test_meta.csv | 1.61MB |
camelyonpatch_level_2_split_test_x.h5.gz | 800.88MB |
Type: Dataset
Tags:
Bibtex:
Tags:
Bibtex:
@article{, title= {The PatchCamelyon benchmark dataset (PCAM)}, keywords= {}, author= {Bas Veeling}, abstract= {The PatchCamelyon benchmark is a new and challenging image classification dataset. It consists of 327.680 color images (96 x 96px) extracted from histopathologic scans of lymph node sections. Each image is annoted with a binary label indicating presence of metastatic tissue. PCam provides a new benchmark for machine learning models: bigger than CIFAR10, smaller than imagenet, trainable on a single GPU. ## Why PCam Fundamental machine learning advancements are predominantly evaluated on straight-forward natural-image classification datasets. Think MNIST, CIFAR, SVHN. Medical imaging is becoming one of the major applications of ML and we believe it deserves a spot on the list of go-to ML datasets. Both to challenge future work, and to steer developments into directions that are beneficial for this domain. We think PCam can play a role in this. It packs the clinically-relevant task of metastasis detection into a straight-forward binary image classification task, akin to CIFAR-10 and MNIST. Models can easily be trained on a single GPU in a couple hours, and achieve competitive scores in the Camelyon16 tasks of tumor detection and WSI diagnosis. Furthermore, the balance between task-difficulty and tractability makes it a prime suspect for fundamental machine learning research on topics as active learning, model uncertainty and explainability. https://github.com/basveeling/pcam/raw/master/pcam.jpg }, terms= {}, license= {}, superseded= {}, url= {https://github.com/basveeling/pcam} }