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Overview of the HECKTOR Challenge at MICCAI 2022: Automatic Head and Neck Tumor Segmentation and Outcome Prediction in PET/CT 1
Automated head and neck tumor segmentation from 3D PET/CT HECKTOR 2022 challenge report
A Coarse-to-Fine Ensembling Framework for Head and Neck Tumor and Lymph Segmentation in CT and PET Images
A General Web-based Platform for Automatic Delineation of Head and Neck Gross Tumor Volumes in PET/CT Images
Octree Boundary Transfiner: Effcient Transformers for Tumor Segmentation Refinement
Head and Neck Primary Tumor and Lymph Node Auto-Segmentation for PET/CT Scans
Fusion-based Automated Segmentation in Head and Neck Cancer via Advance Deep Learning Techniques
Stacking Feature Maps of Multi-Scaled Medical Images in U-Net for 3D Head and Neck Tumor Segmentation
A fine-tuned 3D U-net for primary tumor and affected lymph nodes segmentation in fused multimodal images of oropharyngeal cancer
A U-Net convolutional neural network with multiclass Dice loss for automated segmentation of tumors and lymph nodes from head and neck cancer PET/CT images
Multi-Scale Fusion Methodologies for Head and Neck Tumor Segmentation
Swin UNETR for tumor and lymph node delineation of multicentre oropharyngeal cancer patients with PET/CT imaging
Simplicity is All You Need: Out-of-the-Box nnUNet followed by Binary-Weighted Radiomic Model for Segmentation and Outcome Prediction in Head and Neck PET/CT
Radiomics-enhanced Deep Multi-task Learning for Outcome Prediction in Head and Neck Cancer
Recurrence-free Survival Prediction under the Guidance of Automatic Gross Tumor Volume Segmentation for Head and Neck Cancers
Joint nnU-Net and Radiomics Approaches for Segmentation and Prognosis of Head and Neck Cancers with PET/CT images
LC at HECKTOR 2022: The Effect and Importance of Training Data when Analyzing Cases of Head and Neck Tumors using Machine Learning
Towards Tumour Graph Learning for Survival Prediction in Head Neck Cancer Patients
Combining nnUNet and AutoML for Automatic Head and Neck Tumor Segmentation and Recurrence-Free Survival Prediction in PET/CT Images
Head and neck cancer localization with Retina Unet for automated segmentation and time-to-event prognosis from PET/CT images
HNT-AI: An Automatic Segmentation Framework for Head and Neck Primary Tumors and Lymph Nodes in FDG-PET/CT images
Head and Neck Tumor Segmentation with 3D UNet and Survival Prediction with Multiple Instance Neural Network
Deep Learning and Machine Learning Techniques for Automated PET/CT Segmentation and Survival Prediction in Head and Neck Cancer
Deep learning and radiomics based PET/CT image feature extraction from auto segmented tumor volumes for recurrence-free survival prediction in oropharyngeal cancer patients.

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