Medical Image Segmentation
759 papers with code • 44 benchmarks • 43 datasets
Medical Image Segmentation is a computer vision task that involves dividing an medical image into multiple segments, where each segment represents a different object or structure of interest in the image. The goal of medical image segmentation is to provide a precise and accurate representation of the objects of interest within the image, typically for the purpose of diagnosis, treatment planning, and quantitative analysis.
( Image credit: IVD-Net )
Libraries
Use these libraries to find Medical Image Segmentation models and implementationsDatasets
Subtasks
- Lesion Segmentation
- Brain Tumor Segmentation
- Cell Segmentation
- Skin Lesion Segmentation
- Skin Lesion Segmentation
- Brain Segmentation
- Retinal Vessel Segmentation
- Semi-supervised Medical Image Segmentation
- MRI segmentation
- Cardiac Segmentation
- 3D Medical Imaging Segmentation
- Liver Segmentation
- Volumetric Medical Image Segmentation
- Brain Image Segmentation
- Pancreas Segmentation
- Iris Segmentation
- Video Polyp Segmentation
- Lung Nodule Segmentation
- Nuclear Segmentation
- COVID-19 Image Segmentation
- Skin Cancer Segmentation
- Electron Microscopy Image Segmentation
- Ischemic Stroke Lesion Segmentation
- Brain Lesion Segmentation From Mri
- Placenta Segmentation
- Infant Brain Mri Segmentation
- Automatic Liver And Tumor Segmentation
- Acute Stroke Lesion Segmentation
- Cerebrovascular Network Segmentation
- Automated Pancreas Segmentation
- Semantic Segmentation Of Orthoimagery
- Pulmorary Vessel Segmentation
- Brain Ventricle Localization And Segmentation In 3D Ultrasound Images
Latest papers with no code
Mixed Prototype Consistency Learning for Semi-supervised Medical Image Segmentation
The Mean Teacher generates prototypes for labeled and unlabeled data, while the auxiliary network produces additional prototypes for mixed data processed by CutMix.
Q2A: Querying Implicit Fully Continuous Feature Pyramid to Align Features for Medical Image Segmentation
Therefore, we propose Q2A, a novel one-step query-based aligning paradigm, to solve the feature misalignment problem in the INR-based decoder.
Multi-rater Prompting for Ambiguous Medical Image Segmentation
In this paper, we tackle two challenges arisen in multi-rater annotations for medical image segmentation (called ambiguous medical image segmentation): (1) How to train a deep learning model when a group of raters produces a set of diverse but plausible annotations, and (2) how to fine-tune the model efficiently when computation resources are not available for re-training the entire model on a different dataset domain.
LUCF-Net: Lightweight U-shaped Cascade Fusion Network for Medical Image Segmentation
In this study, the performance of existing U-shaped neural network architectures was enhanced for medical image segmentation by adding Transformer.
An Evidential-enhanced Tri-Branch Consistency Learning Method for Semi-supervised Medical Image Segmentation
Additionally, the evidential fusion branch capitalizes on the complementary attributes of the first two branches and leverages an evidence-based Dempster-Shafer fusion strategy, supervised by more reliable and accurate pseudo-labels of unlabeled data.
EPL: Evidential Prototype Learning for Semi-supervised Medical Image Segmentation
Although current semi-supervised medical segmentation methods can achieve decent performance, they are still affected by the uncertainty in unlabeled data and model predictions, and there is currently a lack of effective strategies that can explore the uncertain aspects of both simultaneously.
Uncertainty-aware Evidential Fusion-based Learning for Semi-supervised Medical Image Segmentation
Although the existing uncertainty-based semi-supervised medical segmentation methods have achieved excellent performance, they usually only consider a single uncertainty evaluation, which often fails to solve the problem related to credibility completely.
Towards Efficient and Accurate CT Segmentation via Edge-Preserving Probabilistic Downsampling
Downsampling images and labels, often necessitated by limited resources or to expedite network training, leads to the loss of small objects and thin boundaries.
Cross-Modal Conditioned Reconstruction for Language-guided Medical Image Segmentation
Recent developments underscore the potential of textual information in enhancing learning models for a deeper understanding of medical visual semantics.
Adaptive Affinity-Based Generalization For MRI Imaging Segmentation Across Resource-Limited Settings
The joint utilization of diverse data sources for medical imaging segmentation has emerged as a crucial area of research, aiming to address challenges such as data heterogeneity, domain shift, and data quality discrepancies.