Related papers: Beyond Few-shot Object Detection: A Detailed Survey

Beyond Few-shot Object Detection: A Detailed Survey

URL: http://arxiv.org/abs/2408.14249v1
Date: Mon, 26 Aug 2024 13:09:23 GMT
Title: Beyond Few-shot Object Detection: A Detailed Survey
Authors: Vishal Chudasama, Hiran Sarkar, Pankaj Wasnik, Vineeth N Balasubramanian, Jayateja Kalla,
Abstract summary: Researchers have introduced few-shot object detection (FSOD) approaches that merge few-shot learning and object detection principles. These approaches play a vital role in reducing the reliance on extensive labeled datasets. This survey paper aims to provide a comprehensive understanding of the above-mentioned few-shot settings and explore the methodologies for each FSOD task.
Score: 25.465534270637523
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Object detection is a critical field in computer vision focusing on accurately identifying and locating specific objects in images or videos. Traditional methods for object detection rely on large labeled training datasets for each object category, which can be time-consuming and expensive to collect and annotate. To address this issue, researchers have introduced few-shot object detection (FSOD) approaches that merge few-shot learning and object detection principles. These approaches allow models to quickly adapt to new object categories with only a few annotated samples. While traditional FSOD methods have been studied before, this survey paper comprehensively reviews FSOD research with a specific focus on covering different FSOD settings such as standard FSOD, generalized FSOD, incremental FSOD, open-set FSOD, and domain adaptive FSOD. These approaches play a vital role in reducing the reliance on extensive labeled datasets, particularly as the need for efficient machine learning models continues to rise. This survey paper aims to provide a comprehensive understanding of the above-mentioned few-shot settings and explore the methodologies for each FSOD task. It thoroughly compares state-of-the-art methods across different FSOD settings, analyzing them in detail based on their evaluation protocols. Additionally, it offers insights into their applications, challenges, and potential future directions in the evolving field of object detection with limited data.

Related papers

Deep Learning-Based Object Pose Estimation: A Comprehensive Survey [73.74933379151419]
We discuss the recent advances in deep learning-based object pose estimation. Our survey also covers multiple input data modalities, degrees-of-freedom of output poses, object properties, and downstream tasks.
arXiv Detail & Related papers (2024-05-13T14:44:22Z)
Few-Shot Object Detection: Research Advances and Challenges [15.916463121997843]
Few-shot object detection (FSOD) combines few-shot learning and object detection techniques to rapidly adapt to novel objects with limited annotated samples. This paper presents a comprehensive survey to review the significant advancements in the field of FSOD in recent years.
arXiv Detail & Related papers (2024-04-07T03:37:29Z)
Innovative Horizons in Aerial Imagery: LSKNet Meets DiffusionDet for Advanced Object Detection [55.2480439325792]
We present an in-depth evaluation of an object detection model that integrates the LSKNet backbone with the DiffusionDet head. The proposed model achieves a mean average precision (MAP) of approximately 45.7%, which is a significant improvement. This advancement underscores the effectiveness of the proposed modifications and sets a new benchmark in aerial image analysis.
arXiv Detail & Related papers (2023-11-21T19:49:13Z)
Few-shot Object Detection in Remote Sensing: Lifting the Curse of Incompletely Annotated Novel Objects [23.171410277239534]
We propose a self-training-based FSOD (ST-FSOD) approach to object detection. Our proposed method outperforms the state-of-the-art in various FSOD settings by a large margin.
arXiv Detail & Related papers (2023-09-19T13:00:25Z)
Improved Region Proposal Network for Enhanced Few-Shot Object Detection [23.871860648919593]
Few-shot object detection (FSOD) methods have emerged as a solution to the limitations of classic object detection approaches. We develop a semi-supervised algorithm to detect and then utilize unlabeled novel objects as positive samples during the FSOD training stage. Our improved hierarchical sampling strategy for the region proposal network (RPN) also boosts the perception of the object detection model for large objects.
arXiv Detail & Related papers (2023-08-15T02:35:59Z)
Incremental-DETR: Incremental Few-Shot Object Detection via Self-Supervised Learning [60.64535309016623]
We propose the Incremental-DETR that does incremental few-shot object detection via fine-tuning and self-supervised learning on the DETR object detector. To alleviate severe over-fitting with few novel class data, we first fine-tune the class-specific components of DETR with self-supervision. We further introduce a incremental few-shot fine-tuning strategy with knowledge distillation on the class-specific components of DETR to encourage the network in detecting novel classes without catastrophic forgetting.
arXiv Detail & Related papers (2022-05-09T05:08:08Z)
Recent Few-Shot Object Detection Algorithms: A Survey with Performance Comparison [54.357707168883024]
Few-Shot Object Detection (FSOD) mimics the humans' ability of learning to learn. FSOD intelligently transfers the learned generic object knowledge from the common heavy-tailed, to the novel long-tailed object classes. We give an overview of FSOD, including the problem definition, common datasets, and evaluation protocols.
arXiv Detail & Related papers (2022-03-27T04:11:28Z)
A Survey of Deep Learning for Low-Shot Object Detection [44.20187548691372]
Low-Shot Object Detection (LSOD) is an emerging research topic of detecting objects from a few or even no annotated samples. This survey provides a comprehensive review of LSOD methods.
arXiv Detail & Related papers (2021-12-06T06:56:00Z)
A Comparative Review of Recent Few-Shot Object Detection Algorithms [0.0]
Few-shot object detection, learning to adapt to the novel classes with a few labeled data, is an imperative and long-lasting problem. Recent studies have explored how to use implicit cues in extra datasets without target-domain supervision to help few-shot detectors refine robust task notions.
arXiv Detail & Related papers (2021-10-30T07:57:11Z)
Learning Open-World Object Proposals without Learning to Classify [110.30191531975804]
We propose a classification-free Object Localization Network (OLN) which estimates the objectness of each region purely by how well the location and shape of a region overlaps with any ground-truth object. This simple strategy learns generalizable objectness and outperforms existing proposals on cross-category generalization.
arXiv Detail & Related papers (2021-08-15T14:36:02Z)
Salient Objects in Clutter [130.63976772770368]
This paper identifies and addresses a serious design bias of existing salient object detection (SOD) datasets. This design bias has led to a saturation in performance for state-of-the-art SOD models when evaluated on existing datasets. We propose a new high-quality dataset and update the previous saliency benchmark.
arXiv Detail & Related papers (2021-05-07T03:49:26Z)

This list is automatically generated from the titles and abstracts of the papers in this site.