Related papers: Biomedical Image Segmentation: A Systematic Literature Review of Deep Learning Based Object Detection Methods

Biomedical Image Segmentation: A Systematic Literature Review of Deep Learning Based Object Detection Methods

URL: http://arxiv.org/abs/2408.03393v2
Date: Wed, 28 Aug 2024 19:56:19 GMT
Title: Biomedical Image Segmentation: A Systematic Literature Review of Deep Learning Based Object Detection Methods
Authors: Fazli Wahid, Yingliang Ma, Dawar Khan, Muhammad Aamir, Syed U. K. Bukhari,
Abstract summary: Deep learning-based object detection methods are commonly used for biomedical image segmentation. Existing surveys often lack a standardized approach or focus on broader segmentation techniques. We critically analyzed these methods, identified the key challenges, and discussed the future directions. This SLR aims to provide the research community with a quick yet deeper understanding of these segmentation models.
Score: 1.0043008463279772
License: http://creativecommons.org/licenses/by-sa/4.0/
Abstract: Biomedical image segmentation plays a vital role in diagnosis of diseases across various organs. Deep learning-based object detection methods are commonly used for such segmentation. There exists an extensive research in this topic. However, there is no standard review on this topic. Existing surveys often lack a standardized approach or focus on broader segmentation techniques. In this paper, we conducted a systematic literature review (SLR), collected and analysed 148 articles that explore deep learning object detection methods for biomedical image segmentation. We critically analyzed these methods, identified the key challenges, and discussed the future directions. From the selected articles we extracted the results including the deep learning models, targeted imaging modalities, targeted diseases, and the metrics for the analysis of the methods. The results have been presented in tabular and/or charted forms. The results are presented in three major categories including two stage detection models, one stage detection models and point-based detection models. Each article is individually analyzed along with its pros and cons. Finally, we discuss open challenges, potential benefits, and future research directions. This SLR aims to provide the research community with a quick yet deeper understanding of these segmentation models, ultimately facilitating the development of more powerful solutions for biomedical image analysis.

Related papers

Deep Learning for Pancreas Segmentation: a Systematic Review [0.5714074111744111]
Many deep learning models for pancreas segmentation have been proposed in the past few years. Pancreas segmentation has been traditionally challenging due to its small size in computed tomography abdominal volumes.
arXiv Detail & Related papers (2024-07-23T09:05:23Z)
Semi-Supervised Semantic Segmentation Based on Pseudo-Labels: A Survey [49.47197748663787]
This review aims to provide a first comprehensive and organized overview of the state-of-the-art research results on pseudo-label methods in the field of semi-supervised semantic segmentation. In addition, we explore the application of pseudo-label technology in medical and remote-sensing image segmentation.
arXiv Detail & Related papers (2024-03-04T10:18:38Z)
Multi-task Explainable Skin Lesion Classification [54.76511683427566]
We propose a few-shot-based approach for skin lesions that generalizes well with few labelled data. The proposed approach comprises a fusion of a segmentation network that acts as an attention module and classification network.
arXiv Detail & Related papers (2023-10-11T05:49:47Z)
A Systematic Review of Few-Shot Learning in Medical Imaging [1.049712834719005]
Few-shot learning techniques can reduce data scarcity issues and enhance medical image analysis. This systematic review gives a comprehensive overview of few-shot learning in medical imaging.
arXiv Detail & Related papers (2023-09-20T16:10:53Z)
Deep Learning for Computational Cytology: A Survey [12.08083533402352]
We introduce various deep learning methods, including fully supervised, weakly supervised, unsupervised, and transfer learning. Then, we systematically summarize the public datasets, evaluation metrics, versatile cyto image analysis applications including classification, detection, segmentation, and other related tasks.
arXiv Detail & Related papers (2022-02-10T16:22:10Z)
Weakly Supervised Few-Shot Segmentation Via Meta-Learning [2.0962464943252934]
We present two novel meta learning methods, named WeaSeL and ProtoSeg, for the few-shot semantic segmentation task with sparse annotations. We conducted extensive evaluation of the proposed methods in different applications in medical imaging and agricultural remote sensing.
arXiv Detail & Related papers (2021-09-03T18:20:26Z)
Machine Learning Methods for Histopathological Image Analysis: A Review [62.14548392474976]
Histopathological images (HIs) are the gold standard for evaluating some types of tumors for cancer diagnosis. One of the ways of accelerating such an analysis is to use computer-aided diagnosis (CAD) systems.
arXiv Detail & Related papers (2021-02-07T19:12:32Z)
Weakly supervised multiple instance learning histopathological tumor segmentation [51.085268272912415]
We propose a weakly supervised framework for whole slide imaging segmentation. We exploit a multiple instance learning scheme for training models. The proposed framework has been evaluated on multi-locations and multi-centric public data from The Cancer Genome Atlas and the PatchCamelyon dataset.
arXiv Detail & Related papers (2020-04-10T13:12:47Z)
Robust Medical Instrument Segmentation Challenge 2019 [56.148440125599905]
Intraoperative tracking of laparoscopic instruments is often a prerequisite for computer and robotic-assisted interventions. Our challenge was based on a surgical data set comprising 10,040 annotated images acquired from a total of 30 surgical procedures. The results confirm the initial hypothesis, namely that algorithm performance degrades with an increasing domain gap.
arXiv Detail & Related papers (2020-03-23T14:35:08Z)
Deep Learning in Medical Ultrasound Image Segmentation: a Review [9.992387025633805]
It can be a key step to provide a reliable basis for clinical diagnosis, such as 3D reconstruction of human tissues. Deep learning-based methods for ultrasound image segmentation are categorized into six main groups according to their architectures and training. In the end, the challenges and potential research directions for medical ultrasound image segmentation are discussed.
arXiv Detail & Related papers (2020-02-18T16:33:22Z)
Image Segmentation Using Deep Learning: A Survey [58.37211170954998]
Image segmentation is a key topic in image processing and computer vision. There has been a substantial amount of works aimed at developing image segmentation approaches using deep learning models.
arXiv Detail & Related papers (2020-01-15T21:37:47Z)

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

This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.