RF‐GANs: A Method to Synthesize Retinal Fundus Images Based on Generative Adversarial Network

Chen, Yu; Long, Jun; Guo, Jifeng

doi:10.1155/2021/3812865

Cited by 10 publications

(6 citation statements)

References 43 publications

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“…Chen et. al [78] proposed dubbed retinal fundus image generative adversarial networks (RF-GANs), which consist of two generation models, that is, RF-GAN1 and RF-GAN2.…”

Section: Image Augmentationmentioning

confidence: 99%

Diabetic Retinopathy Classification With Deep Learning via Fundus Images: A Short Survey

Zhu,

Xiong,

Zhong

et al. 2024

IEEE Access

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Diabetic retinopathy (DR) is a microvascular disease that is associated with diabetes mellitus. DR can cause irreversible vision loss and blindness. DR classification, that is, early DR diagnosis and accurate DR grading, is critical for vision protection and immediate treatment. Deep learning-based automated systems led to significant expectations for DR classification based on fundus images with several advantages. In the past several years, many outstanding studies in this area have been conducted and several review articles have been published. However, the new trends and the future directions are need to further analyzed. Thus, we carefully included and read 94 related articles published from 2018 to 2023 through Web of Science, PubMed, Scopus, and IEEE Xplore. From this review, we found that transfer learning has been used as an outstanding strategy for overcoming the issue of the limited data resources to support DR analysis. CNN models of ResNet and VGGNet with layers of tens or even hundreds are the most popular frameworks used for DR classification. The APTOS 2019 and EyePACS are the most widely used datasets for DR classification. In addition, some lightweight DL architectures like SqueezeNet and MobileNet have been proposed for DR classification tasks, especially for limited data resources and computational capabilities. Although deep learning has achieved or surpassed human-level accuracy in DR classification, there is still a long way to go in real clinical workflows. Further improvements in model interpretability, trustworthiness from ophthalmologists, cost-effective and reliable DR screening systems are needed.

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“…Chen et. al [78] proposed dubbed retinal fundus image generative adversarial networks (RF-GANs), which consist of two generation models, that is, RF-GAN1 and RF-GAN2.…”

Section: Image Augmentationmentioning

confidence: 99%

Diabetic Retinopathy Classification With Deep Learning via Fundus Images: A Short Survey

Zhu,

Xiong,

Zhong

et al. 2024

IEEE Access

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show abstract

“…The DRGraduate model for DR grading was trained with this data augmentation technique, and experiments were performed to assess its impact [64]. Chen et al [65] introduced RF-GANs, comprising two generative models, RF-GAN1 and RF-GAN2. RF-GAN1 addresses the domain gap between semantic segmentation datasets and EyePACS.…”

Section: Data Augmentation Techniquesmentioning

confidence: 99%

Unveiling visionary frontiers: a survey of cutting-edge techniques in deep learning for retinal disease diagnosis

Rajatha,

Davanageri Virupakshappa

2024

IJEECS

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Retinal disorders impact millions of people globally. These disorders can be detected and diagnosed early enough to not only cure but also avoid permanent blindness. Manual identification of these diseases has always been tedious, time-consuming, and inconsistent. For ophthalmologists, retinal fundus images are a valuable source of information in diagnosing retinal diseases. Automatic identification of eye disorders using artificial intelligence (AI) based learning models has seen substantial development in the computer vision sector recently. Various models, particularly deep learning (DL) models are incredible in identifying and classifying diseases. In the presented review, we have performed an in-depth analysis of various existing DL models, involving preprocessing, classification, segmentation, and techniques to deal with data imbalance. We have also endeavored to gauge the effectiveness of these models by evaluating their performance using the metrics employed in their assessment. In addition, we explored various challenges along with the potential future scope in this domain.<p> </p>

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“…Niu et al [40] proposed a method to generate an image consistent with the given pathological descriptors. Both Zhou et al [62] and Chen et al [6] developed GAN models to synthesize retinal images conditioned on a semantic segmentation to improve disease classification performance. Yu et al…”

Section: Related Workmentioning

confidence: 99%

“…We also note that the existing work on GANs for retinal images (e.g. [6,40,61,62]) leverages additional labeled information such as vessel segmentation, and thus are not directly applicable to our setting where we use the raw fundus images.…”

Section: Gan-based Image Generation and Encodingmentioning

confidence: 99%

“…Despite the promise of these approaches, several key challenges remain in applying these methods to retinal images. First, while several works have explored the use of GANs to generate synthetic retinal images [4,5,6,7,40], none to our knowledge have addressed the problem of effectively summarizing these images in the latent space, making the feasibility of this approach for retinal images an unknown. Next, the difficulty of capturing fine-grain visual patterns of retinal images (e.g.…”

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confidence: 99%

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k-SALSA: k-anonymous synthetic averaging of retinal images via local style alignment

Jeon,

Park,

Kim

et al. 2023

Preprint

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RF‐GANs: A Method to Synthesize Retinal Fundus Images Based on Generative Adversarial Network

Cited by 10 publications

References 43 publications

Diabetic Retinopathy Classification With Deep Learning via Fundus Images: A Short Survey

Diabetic Retinopathy Classification With Deep Learning via Fundus Images: A Short Survey

Unveiling visionary frontiers: a survey of cutting-edge techniques in deep learning for retinal disease diagnosis

k-SALSA: k-anonymous synthetic averaging of retinal images via local style alignment

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