Semantic Segmentation

Semantic segmentation, the task of assigning a semantic label to each pixel in an image, aims to achieve precise pixel-level scene understanding. Current research emphasizes improving accuracy and efficiency across diverse data modalities (RGB, depth, lidar, hyperspectral, and time series) and challenging conditions (low light, adverse weather, imbalanced datasets), often employing advanced architectures like transformers and diffusion models alongside innovative loss functions and training strategies. This field is crucial for numerous applications, including autonomous driving, medical image analysis, remote sensing, and robotics, driving advancements in both model robustness and interpretability.

Papers

February 28, 2024

February 27, 2024

February 26, 2024

February 22, 2024

Semantic Image Synthesis with Unconditional Generator
Jungwoo Chae, Hyunin Cho, Sooyeon Go, Kyungmook Choi, Youngjung Uh
Semantic Segmentation Semantic Mask Semantic Image Synthesis Geometry Editing Biometric Information

February 21, 2024

February 20, 2024

Cross-Domain Transfer Learning with CoRTe: Consistent and Reliable Transfer from Black-Box to Lightweight Segmentation Model
Claudia Cuttano, Antonio Tavera, Fabio Cermelli, Giuseppe Averta, Barbara Caputo
Semantic Segmentation Unsupervised Domain Adaptation Black Box Pseudo Labeling Semantic Segmentation Model Domain Transfer Lightweight Segmentation

February 19, 2024

Towards Explainable LiDAR Point Cloud Semantic Segmentation via Gradient Based Target Localization
Abhishek Kuriyal, Vaibhav Kumar
Semantic Segmentation LiDAR Point Cloud Saliency Map Lidar Semantic Segmentation Point Cloud Semantic Segmentation Gradient Tracking

February 18, 2024

Key Patch Proposer: Key Patches Contain Rich Information
Jing Xu, Beiwen Tian, Hao Zhao
Semantic Segmentation Active Learning

February 17, 2024

A Decoding Scheme with Successive Aggregation of Multi-Level Features for Light-Weight Semantic Segmentation
Jiwon Yoo, Jangwon Lee, Gyeonghwan Kim
Semantic Segmentation Semantic Segmentation Model Hierarchical Vision Transformer Multi Level Feature Lightweight Semantic Segmentation Numerical Aggregation

February 16, 2024

February 14, 2024

Reducing Texture Bias of Deep Neural Networks via Edge Enhancing Diffusion
Edgar Heinert, Matthias Rottmann, Kira Maag, Karsten Kahl
Convolutional Neural Network Deep Neural Network Semantic Segmentation Texture Bias

February 9, 2024

Semantic Segmentation

Papers

Oil Spill Drone: A Dataset of Drone-Captured, Segmented RGB Images for Oil Spill Detection in Port Environments

Spannotation: Enhancing Semantic Segmentation for Autonomous Navigation with Efficient Image Annotation

Weakly Supervised Co-training with Swapping Assignments for Semantic Segmentation

Mitigating Distributional Shift in Semantic Segmentation via Uncertainty Estimation from Unlabelled Data

A Large-scale Evaluation of Pretraining Paradigms for the Detection of Defects in Electroluminescence Solar Cell Images

Scribble Hides Class: Promoting Scribble-Based Weakly-Supervised Semantic Segmentation with Its Class Label

ConSept: Continual Semantic Segmentation via Adapter-based Vision Transformer

BLO-SAM: Bi-level Optimization Based Overfitting-Preventing Finetuning of SAM

Semantic Image Synthesis with Unconditional Generator

Tumor segmentation on whole slide images: training or prompting?

Generalizable Semantic Vision Query Generation for Zero-shot Panoptic and Semantic Segmentation

Cross-Domain Transfer Learning with CoRTe: Consistent and Reliable Transfer from Black-Box to Lightweight Segmentation Model

Towards Explainable LiDAR Point Cloud Semantic Segmentation via Gradient Based Target Localization

Key Patch Proposer: Key Patches Contain Rich Information

A Decoding Scheme with Successive Aggregation of Multi-Level Features for Light-Weight Semantic Segmentation

Selective Prediction for Semantic Segmentation using Post-Hoc Confidence Estimation and Its Performance under Distribution Shift

Efficient Multi-task Uncertainties for Joint Semantic Segmentation and Monocular Depth Estimation

Reducing Texture Bias of Deep Neural Networks via Edge Enhancing Diffusion

More than the Sum of Its Parts: Ensembling Backbone Networks for Few-Shot Segmentation

Hybridnet for depth estimation and semantic segmentation