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| license: apache-2.0 | |
| language: | |
| - en | |
| metrics: | |
| - f1 | |
| tags: | |
| - cell segmentation | |
| - stardist | |
| - hover-net | |
| library_name: transformers | |
| pipeline_tag: image-segmentation | |
| datasets: | |
| - Lewislou/cell_samples | |
| # Model Card for cell-seg-sribd | |
| <!-- Provide a quick summary of what the model is/does. --> | |
| This repository provides the solution of team Sribd-med for NeurIPS-CellSeg Challenge. The details of our method are described in our paper [Multi-stream Cell Segmentation with Low-level Cues for Multi-modality Images]. Some parts of the codes are from the baseline codes of the NeurIPS-CellSeg-Baseline repository, | |
| You can reproduce our method as follows step by step: | |
| ### How to Get Started with the Model | |
| Install requirements by python -m pip install -r requirements.txt | |
| ## Training Details | |
| ### Training Data | |
| The competition training and tuning data can be downloaded from https://neurips22-cellseg.grand-challenge.org/dataset/ Besides, you can download three publiced data from the following link: Cellpose: https://www.cellpose.org/dataset Omnipose: http://www.cellpose.org/dataset_omnipose Sartorius: https://www.kaggle.com/competitions/sartorius-cell-instance-segmentation/overview | |
| ## Environments and Requirements: | |
| Install requirements by | |
| ```shell | |
| python -m pip install -r requirements.txt | |
| ``` | |
| ### How to use | |
| Here is how to use this model: | |
| ```python | |
| from skimage import io, segmentation, morphology, measure, exposure | |
| from sribd_cellseg_models import MultiStreamCellSegModel,ModelConfig | |
| import numpy as np | |
| import tifffile as tif | |
| import requests | |
| import torch | |
| from PIL import Image | |
| from overlay import visualize_instances_map | |
| import cv2 | |
| img_name = 'test_images/cell_00551.tiff' | |
| def normalize_channel(img, lower=1, upper=99): | |
| non_zero_vals = img[np.nonzero(img)] | |
| percentiles = np.percentile(non_zero_vals, [lower, upper]) | |
| if percentiles[1] - percentiles[0] > 0.001: | |
| img_norm = exposure.rescale_intensity(img, in_range=(percentiles[0], percentiles[1]), out_range='uint8') | |
| else: | |
| img_norm = img | |
| return img_norm.astype(np.uint8) | |
| if img_name.endswith('.tif') or img_name.endswith('.tiff'): | |
| img_data = tif.imread(img_name) | |
| else: | |
| img_data = io.imread(img_name) | |
| # normalize image data | |
| if len(img_data.shape) == 2: | |
| img_data = np.repeat(np.expand_dims(img_data, axis=-1), 3, axis=-1) | |
| elif len(img_data.shape) == 3 and img_data.shape[-1] > 3: | |
| img_data = img_data[:,:, :3] | |
| else: | |
| pass | |
| pre_img_data = np.zeros(img_data.shape, dtype=np.uint8) | |
| for i in range(3): | |
| img_channel_i = img_data[:,:,i] | |
| if len(img_channel_i[np.nonzero(img_channel_i)])>0: | |
| pre_img_data[:,:,i] = normalize_channel(img_channel_i, lower=1, upper=99) | |
| #dummy_input = np.zeros((512,512,3)).astype(np.uint8) | |
| my_model = MultiStreamCellSegModel.from_pretrained("Lewislou/cellseg_sribd") | |
| checkpoints = torch.load('model.pt') | |
| my_model.__init__(ModelConfig()) | |
| my_model.load_checkpoints(checkpoints) | |
| with torch.no_grad(): | |
| output = my_model(pre_img_data) | |
| overlay = visualize_instances_map(pre_img_data,star_label) | |
| cv2.imwrite('prediction.png', cv2.cvtColor(overlay, cv2.COLOR_RGB2BGR)) | |
| ``` | |
| ## Citation | |
| If any part of this code is used, please acknowledge it appropriately and cite the paper: | |
| ```bibtex | |
| @misc{ | |
| lou2022multistream, | |
| title={Multi-stream Cell Segmentation with Low-level Cues for Multi-modality Images}, | |
| author={WEI LOU and Xinyi Yu and Chenyu Liu and Xiang Wan and Guanbin Li and Siqi Liu and Haofeng Li}, | |
| year={2022}, | |
| url={https://openreview.net/forum?id=G24BybwKe9} | |
| } | |
| ``` |