EnglishUnlimited Access
For Registered Users
To contact us, you can contact us via the following mobile numbers by calling and WhatsApp
For Registered Users
100% Secure Payment
10 Days Returns
Call Us Anytime
edition: [1 ed.] Authors: Sandy Engelhardt (editor), Ilkay Oksuz (editor), Dajiang Zhu (editor), Yixuan Yuan (editor), Anirban Mukhopadhyay (editor), Nicholas Heller (editor), Sharon Xiaolei Huang (editor), Hien Nguyen (editor), Raphael Sznitman (editor) serie: Lecture Notes in Computer Science 13003 ISBN : 3030882098, 9783030882099 publisher: Springer publish year: 2021 pages: 296 [285] language: English ebook format : PDF (It will be converted to PDF, EPUB OR AZW3 if requested by the user) file size: 50 Mb
DGM4MICCAI 2021 Preface DGM4MICCAI 2021 Organization DALI 2021 Preface DALI 2021 Organization Contents Image-to-Image Translation, Synthesis Frequency-Supervised MR-to-CT Image Synthesis 1 Introduction 2 Method 2.1 Frequency-Supervised Synthesis Network 2.2 High-Frequency Adversarial Learning 3 Experiments and Results 3.1 Experimental Setup 3.2 Results 4 Conclusion References Ultrasound Variational Style Transfer to Generate Images Beyond the Observed Domain 1 Introduction 2 Methods 2.1 Style Encoder 2.2 Content Encoder 2.3 Decoder 2.4 Loss Functions 2.5 Implementation Details 3 Experiments 3.1 Qualitative Results 3.2 Quantitative Results 4 Conclusion References 3D-StyleGAN: A Style-Based Generative Adversarial Network for Generative Modeling of Three-Dimensional Medical Images 1 Introduction 2 Methods 2.1 3D-StyleGAN 3 Results 4 Discussion References Bridging the Gap Between Paired and Unpaired Medical Image Translation 1 Introduction 2 Methods 3 Experiments 3.1 Comparison with Baselines 3.2 Ablation Studies 4 Conclusion References Conditional Generation of Medical Images via Disentangled Adversarial Inference 1 Introduction 2 Method 2.1 Overview 2.2 Dual Adversarial Inference (DAI) 2.3 Disentanglement Constrains 3 Experiments 3.1 Generation Evaluation 3.2 Style-Content Disentanglement 3.3 Ablation Studies 4 Conclusion A Disentanglement Constrains A.1 Content-Style Information Minimization A.2 Self-supervised Regularization B Implementation Details B.1 Implementation Details B.2 Generating Hybrid Images C Datasets C.1 HAM10000 C.2 LIDC D Baselines D.1 Conditional InfoGAN D.2 cAVAE D.3 Evaluation Metrics E Related Work E.1 Connection to Other Conditional GANs in Medical Imaging E.2 Disentangled Representation Learning References CT-SGAN: Computed Tomography Synthesis GAN 1 Introduction 2 Methods 3 Datasets and Experimental Design 3.1 Dataset Preparation 4 Results and Discussion 4.1 Qualitative Evaluation 4.2 Quantitative Evaluation 5 Conclusions A Sample Synthetic CT-scans from CT-SGAN B Nodule Injector and Eraser References Applications andĀ Evaluation Hierarchical Probabilistic Ultrasound Image Inpainting via Variational Inference 1 Introduction 2 Methods 2.1 Learning 2.2 Inference 2.3 Objectives 2.4 Implementation 3 Experiments 3.1 Inpainting on Live-Pig Images 3.2 Filling in Artifact Regions After Segmentation 3.3 Needle Tracking 4 Conclusion References CaCL: Class-Aware Codebook Learning for Weakly Supervised Segmentation on Diffuse Image Patterns 1 Introduction 2 Methods 2.1 Class-Aware Codebook Based Feature Encoding 2.2 Loss Definition 2.3 Training Strategy 2.4 Weakly Supervised Learning Segmentation 3 Data and Experiments 4 Results 5 Discussion References BrainNetGAN: Data Augmentation of Brain Connectivity Using Generative Adversarial Network for Dementia Classification 1 Introduction 1.1 Related Work 1.2 BrainNetGAN 2 Methods 2.1 Structural Brain Networks 2.2 Data Augmentation Using BrainNetGAN 2.3 Data Acquisition and Experimental Setup 3 Numerical Results 4 Discussion and Conclusion References Evaluating GANs in Medical Imaging 1 Introduction 2 Methods 2.1 Competing GANs 3 Materials 4 Experimental Results 5 Conclusions References AdaptOR Challenge Improved Heatmap-Based Landmark Detection 1 Introduction 2 Materials and Methods 2.1 Data Set 2.2 Outline of the Proposed Method 2.3 Pre-processing 2.4 Point Detection 2.5 Post-processing 2.6 Evaluation 3 Results 4 Conclusions References Cross-Domain Landmarks Detection in Mitral Regurgitation 1 Introduction 2 Method 2.1 Generating Heatmap of Key Points for Training 2.2 Inference Procedure 3 Experiments 3.1 Datasets 3.2 Implementation Details 3.3 Results 4 Conclusion References DALI 2021 Scalable Semi-supervised Landmark Localization for X-ray Images Using Few-Shot Deep Adaptive Graph 1 Introduction 2 Method 2.1 Deep Adaptive Graph 2.2 Few-Shot DAG 3 Results 4 Conclusion References Semi-supervised Surgical Tool Detection Based on Highly Confident Pseudo Labeling and Strong Augmentation Driven Consistency 1 Introduction 2 Methodology 2.1 Dataset 2.2 Methods 3 Experiments 3.1 Comparative Results 3.2 Ablation Study 4 Conclusion References One-Shot Learning for Landmarks Detection 1 Introduction 2 Method 2.1 Overview 2.2 Offline One-Shot CNN Training 2.3 Online Structure Detection 2.4 Online Image Patch Registration 3 Experiment 3.1 Dataset 3.2 Network Architecture and Training Details 4 Results 5 Conclusion References Compound Figure Separation of Biomedical Images with Side Loss 1 Introduction 2 Related Work 3 Methods 3.1 Anchor Based Detection 3.2 Compound Figure Simulation 3.3 Side Loss for Compound Figure Separation 4 Data and Implementation Details 5 Results 5.1 Ablation Study 5.2 Comparison with State-of-the-Art 6 Conclusion References Data Augmentation with Variational Autoencoders and Manifold Sampling 1 Introduction 2 Variational Autoencoder 3 Some Elements on Riemannian Geometry 4 The Proposed Method 4.1 The Wrapped Normal Distribution 4.2 Riemannian Random Walk 4.3 Discussion 5 Data Augmentation Experiments for Classification 5.1 Augmentation Setting 5.2 Results 6 Conclusion References Medical Image Segmentation with Imperfect 3D Bounding Boxes 1 Introduction 2 Related Work 3 Methodology 3.1 Bounding Box Correction 3.2 Bounding Boxes for Weakly Supervised Segmentation 3.3 Implementation Details 4 Experiments and Discussion 4.1 Weakly-Supervised Segmentation of 3D CT Volume Using Bounding Box Correction 5 Conclusions and Discussions References Automated Iterative Label Transfer Improves Segmentation of Noisy Cells in Adaptive Optics Retinal Images 1 Introduction 2 Methodology 2.1 Cell Segmentation Initialization 2.2 Cell-to-Cell Correspondence Using Graph Matching 2.3 Data Augmentation Through Iterative Label Transfer 2.4 Data Collection and Validation Methods 3 Experimental Results 3.1 Iterative Cell Segmentation in Noisy Images 3.2 Purposeful Data Augmentation Improves Training Results 4 Conclusion and Future Work References How Few Annotations are Needed for Segmentation Using a Multi-planar U-Net? 1 Introduction 2 Methods 3 Datasets 4 Experiments and Results 5 Discussion References FS-Net: A New Paradigm of Data Expansion for Medical Image Segmentation 1 Introduction 2 Proposed FS-Net 2.1 Images Channel Coding and Re-Encoding the Ground Truth 2.2 FS Module 2.3 Weighted Loss 3 Experiments 3.1 Datasets 3.2 Baselines and Implementation 3.3 Results 3.4 Ablation Study 4 Conclusions References An Efficient Data Strategy for the Detection of Brain Aneurysms from MRA with Deep Learning 1 Introduction 2 Materials and Methods 2.1 Dataset and Data Annotation 2.2 Model Implementation 2.3 Patch Generation and Data Augmentation 2.4 Metrics and Performance Evaluation 3 Experiments and Results 3.1 Ablation Study 3.2 5-Fold Validation 4 Discussion 5 Conclusion References Evaluation of Active Learning Techniques on Medical Image Classification with Unbalanced Data Distributions 1 Introduction 1.1 Active Learning in Medical Imaging 1.2 Active Learning Methodology 2 Methods 2.1 Datasets 2.2 Scoring Functions 2.3 Sampling Strategies 3 Experiments 3.1 Experimental Setup 3.2 Results 4 Discussion 5 Conclusion References Zero-Shot Domain Adaptation in CT Segmentation by Filtered Back Projection Augmentation 1 Introduction 2 Materials and Methods 2.1 Filtered Back-Projection Augmentation 2.2 Comparison Augmentation Approaches 2.3 Datasets 2.4 Quality Metrics 3 Experiments 3.1 Experimental Pipeline 3.2 Network Architecture and Training Setup 4 Results 5 Conclusion References Label Noise in Segmentation Networks: Mitigation Must Deal with Bias 1 Introduction 2 Segmentation Models 3 Model Performance on Corrupted Labels 3.1 Random Warp 3.2 Constant Shift 3.3 Random Crop 3.4 Permutation 4 Limitations and Future Work 5 Conclusion References DeepMCAT: Large-Scale Deep Clustering for Medical Image Categorization 1 Introduction 2 Related Work 3 Method 4 Results and Discussion 5 Conclusion References MetaHistoSeg: A Python Framework for Meta Learning in Histopathology Image Segmentation 1 Introduction 2 MetaHistoSeg Framework 2.1 Histopathology Task Dataset Preprocessing 2.2 Task and Instance Level Batch Sampling 2.3 Task-Specific Heads and Multi-GPU Support 3 Experiments 3.1 Implementation Details 3.2 Results 4 Conclusions References Author Index
