Your search keyword '"Kwon, Hyeongjun"' showing total 3 results

1. Enhancing Source-Free Domain Adaptive Object Detection with Low-confidence Pseudo Label Distillation

Author

Yoon, Ilhoon, Kwon, Hyeongjun, Kim, Jin, Park, Junyoung, Jang, Hyunsung, and Sohn, Kwanghoon

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence

Abstract

Source-Free domain adaptive Object Detection (SFOD) is a promising strategy for deploying trained detectors to new, unlabeled domains without accessing source data, addressing significant concerns around data privacy and efficiency. Most SFOD methods leverage a Mean-Teacher (MT) self-training paradigm relying heavily on High-confidence Pseudo Labels (HPL). However, these HPL often overlook small instances that undergo significant appearance changes with domain shifts. Additionally, HPL ignore instances with low confidence due to the scarcity of training samples, resulting in biased adaptation toward familiar instances from the source domain. To address this limitation, we introduce the Low-confidence Pseudo Label Distillation (LPLD) loss within the Mean-Teacher based SFOD framework. This novel approach is designed to leverage the proposals from Region Proposal Network (RPN), which potentially encompasses hard-to-detect objects in unfamiliar domains. Initially, we extract HPL using a standard pseudo-labeling technique and mine a set of Low-confidence Pseudo Labels (LPL) from proposals generated by RPN, leaving those that do not overlap significantly with HPL. These LPL are further refined by leveraging class-relation information and reducing the effect of inherent noise for the LPLD loss calculation. Furthermore, we use feature distance to adaptively weight the LPLD loss to focus on LPL containing a larger foreground area. Our method outperforms previous SFOD methods on four cross-domain object detection benchmarks. Extensive experiments demonstrate that our LPLD loss leads to effective adaptation by reducing false negatives and facilitating the use of domain-invariant knowledge from the source model. Code is available at https://github.com/junia3/LPLD., Comment: ECCV 2024

Published

2024

2. Improving Visual Recognition with Hyperbolical Visual Hierarchy Mapping

Author

Kwon, Hyeongjun, Jang, Jinhyun, Kim, Jin, Kim, Kwonyoung, and Sohn, Kwanghoon

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Visual scenes are naturally organized in a hierarchy, where a coarse semantic is recursively comprised of several fine details. Exploring such a visual hierarchy is crucial to recognize the complex relations of visual elements, leading to a comprehensive scene understanding. In this paper, we propose a Visual Hierarchy Mapper (Hi-Mapper), a novel approach for enhancing the structured understanding of the pre-trained Deep Neural Networks (DNNs). Hi-Mapper investigates the hierarchical organization of the visual scene by 1) pre-defining a hierarchy tree through the encapsulation of probability densities; and 2) learning the hierarchical relations in hyperbolic space with a novel hierarchical contrastive loss. The pre-defined hierarchy tree recursively interacts with the visual features of the pre-trained DNNs through hierarchy decomposition and encoding procedures, thereby effectively identifying the visual hierarchy and enhancing the recognition of an entire scene. Extensive experiments demonstrate that Hi-Mapper significantly enhances the representation capability of DNNs, leading to an improved performance on various tasks, including image classification and dense prediction tasks., Comment: This paper is accepted to CVPR 2024. The supplementary material is included. The code is available at \url{https://github.com/kwonjunn01/Hi-Mapper}

Published

2024

3. Layer-wise Auto-Weighting for Non-Stationary Test-Time Adaptation

Author

Park, Junyoung, primary, Kim, Jin, additional, Kwon, Hyeongjun, additional, Yoon, Ilhoon, additional, and Sohn, Kwanghoon, additional

Published

2024