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 segmentationin 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.