Co-Training for Unsupervised Domain Adaptation of Semantic Segmentation Models

Gómez, Jonatan; Villalonga, Gabriel; López, Antonio

doi:10.3390/s23020621

Cited by 6 publications

(2 citation statements)

References 40 publications

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“…While previous research has been focused on what impact the synthetic image quality has in object detection tasks, a notable gap still remains in understanding how synthetic data could affect neural network performance in semantic segmentation for autonomous driving (G ómez et al, 2023;Khan et al, 2019).…”

Section: Related Workmentioning

confidence: 99%

Understanding the Influence of Rendering Parameters in Synthetic Datasets for Neural Semantic Segmentation Tasks

Silva,

Mures,

Seoane

et al. 2023

Congreso XoveTIC: Impulsando El Talento Científico (6º. 2023. A Coruña)

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Deep neural networks are well known for demanding large amounts of training data, motivating the appearance of multiple synthetic datasets covering multiple domains. However, synthetic datasets have not yet outperformed real data for autonomous driving applications, particularly for semantic segmentation tasks. Thus, a deeper comprehension about how the parameters involved in synthetic data generation could help in creating better synthetic datasets. This work provides a summary review of prior research covering how image noise, camera noise and rendering photorealism could affect learning tasks. Furthermore, we presents novel experiments aimed at advancing our understanding around generating synthetic data for autonomous driving neural networks aimed at semantic segmentation

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Section: Related Workmentioning

confidence: 99%

Understanding the Influence of Rendering Parameters in Synthetic Datasets for Neural Semantic Segmentation Tasks

Silva,

Mures,

Seoane

et al. 2023

Congreso XoveTIC: Impulsando El Talento Científico (6º. 2023. A Coruña)

View full text Add to dashboard Cite

show abstract

“…The latest advances in Unsupervised Domain Adaptation (UDA) in image processing have been attempted and progressed in various fields. Goel et al [9] achieved unsupervised domain adaptation by guiding transfer learning and employing the Jensen-Shannon (JS) divergence method. In the remote sensing domain, Elshamli et al [10] introduced an innovative approach to domain adaptation, incorporating denoising autoencoders and domain adversarial neural networks, especially in the classification of hyperspectral and multispectral images.…”

Section: Introductionmentioning

confidence: 99%

Explore Innovative Depth Vision Models with Domain Adaptation

Xu,

Wang

2024

IJACSA

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In recent years, deep learning has garnered widespread attention in graph-structured data. Nevertheless, due to the high cost of collecting labeled graph data, domain adaptation becomes particularly crucial in supervised graph learning tasks. The performance of existing methods may degrade when there are disparities between training and testing data, especially in challenging scenarios such as remote sensing image analysis. In this study, an approach to achieving highquality domain adaptation without explicit adaptation was explored. The proposed Efficient Lightweight Aggregation Network (ELANet) model addresses domain adaptation challenges in graph-structured data by employing an efficient lightweight architecture and regularization techniques. Through experiments on real datasets, ELANet demonstrated robust domain adaptability and generality, performing exceptionally well in cross-domain settings of remote sensing images. Furthermore, the research indicates that regularization techniques play a crucial role in mitigating the model's sensitivity to domain differences, especially when incorporating a module that adjusts feature weights in response to redefined features. Moreover, the study finds that under the same training and validation set configurations, the model achieves better training outcomes with appropriate data transformation strategies. The achievements of this research extend not only to the agricultural domain but also show promising results in various object detection scenarios, contributing to the advancement of domain adaptation research.

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Closing the gap in domain adaptation for semantic segmentation: a time-aware method

Serrat,

Gómez,

López

2024

Machine Vision and Applications

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Semantic segmentation models need a large number of images to be effectively trained but manual annotation of such images has a high cost. Active domain adaptation addresses this problem by pretraining the model with a synthetically generated dataset and then fine-tuning it with a few selected label annotations (the “budget”) on real images to account for the domain shift. Previous works annotate a percentage of either individual pixels or whole target images. We argue that the first is infeasible in practice, and the second spends part of the budget on classes that the pretrained model may have already learned well. We propose a method based on the annotation of regions computed by Segment Anything, a recently introduced foundation model for class-agnostic image segmentation. The key idea is to assign a ground truth label to each of a tiny subset of regions, those for which the model is more uncertain. In order to increase the number of annotated regions we propagate the ground truth labels to most similar regions according to a hierarchical clustering algorithm that uses the features learned by the pretrained model. Our method outperforms the state-of-the-art on the GTA5 to Cityscapes benchmark by using fewer annotations, almost closing the gap between the synthetically pre-trained model and that obtained with full supervision of the real images. Furthermore, we present competitive results for budgets less than 1% of samples and also for a larger and more challenging target dataset, Mapillary Vistas.

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Co-Training for Unsupervised Domain Adaptation of Semantic Segmentation Models

Cited by 6 publications

References 40 publications

Understanding the Influence of Rendering Parameters in Synthetic Datasets for Neural Semantic Segmentation Tasks

Understanding the Influence of Rendering Parameters in Synthetic Datasets for Neural Semantic Segmentation Tasks

Explore Innovative Depth Vision Models with Domain Adaptation

Closing the gap in domain adaptation for semantic segmentation: a time-aware method

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