Model Card for resnet_v1_50_arabian-peninsula
A Resnet v1 image classification model. This model was trained on the arabian-peninsula dataset (all the relevant bird species found in the Arabian peninsula inc. rarities).
The training followed RSB procedure A2.
The species list is derived from data available at https://avibase.bsc-eoc.org/checklist.jsp?region=ARA.
Model Details
Model Type: Image classification and detection backbone
Model Stats:
- Params (M): 25.0
- Input image size: 256 x 256
Dataset: arabian-peninsula (735 classes)
Papers:
- Deep Residual Learning for Image Recognition: https://arxiv.org/abs/1512.03385
- ResNet strikes back: An improved training procedure in timm: https://arxiv.org/abs/2110.00476
Model Usage
Image Classification
import birder
from birder.inference.classification import infer_image
(net, model_info) = birder.load_pretrained_model("resnet_v1_50_arabian-peninsula", inference=True)
# Get the image size the model was trained on
size = birder.get_size_from_signature(model_info.signature)
# Create an inference transform
transform = birder.classification_transform(size, model_info.rgb_stats)
image = "path/to/image.jpeg" # or a PIL image, must be loaded in RGB format
(out, _) = infer_image(net, image, transform)
# out is a NumPy array with shape of (1, 735), representing class probabilities.
Image Embeddings
import birder
from birder.inference.classification import infer_image
(net, model_info) = birder.load_pretrained_model("resnet_v1_50_arabian-peninsula", inference=True)
# Get the image size the model was trained on
size = birder.get_size_from_signature(model_info.signature)
# Create an inference transform
transform = birder.classification_transform(size, model_info.rgb_stats)
image = "path/to/image.jpeg" # or a PIL image
(out, embedding) = infer_image(net, image, transform, return_embedding=True)
# embedding is a NumPy array with shape of (1, 2048)
Detection Feature Map
from PIL import Image
import birder
(net, model_info) = birder.load_pretrained_model("resnet_v1_50_arabian-peninsula", inference=True)
# Get the image size the model was trained on
size = birder.get_size_from_signature(model_info.signature)
# Create an inference transform
transform = birder.classification_transform(size, model_info.rgb_stats)
image = Image.open("path/to/image.jpeg")
features = net.detection_features(transform(image).unsqueeze(0))
# features is a dict (stage name -> torch.Tensor)
print([(k, v.size()) for k, v in features.items()])
# Output example:
# [('stage1', torch.Size([1, 256, 64, 64])),
# ('stage2', torch.Size([1, 512, 32, 32])),
# ('stage3', torch.Size([1, 1024, 16, 16])),
# ('stage4', torch.Size([1, 2048, 8, 8]))]
Citation
@misc{he2015deepresiduallearningimage,
title={Deep Residual Learning for Image Recognition},
author={Kaiming He and Xiangyu Zhang and Shaoqing Ren and Jian Sun},
year={2015},
eprint={1512.03385},
archivePrefix={arXiv},
primaryClass={cs.CV},
url={https://arxiv.org/abs/1512.03385},
}
@misc{wightman2021resnetstrikesbackimproved,
title={ResNet strikes back: An improved training procedure in timm},
author={Ross Wightman and Hugo Touvron and Hervé Jégou},
year={2021},
eprint={2110.00476},
archivePrefix={arXiv},
primaryClass={cs.CV},
url={https://arxiv.org/abs/2110.00476},
}
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