Related papers: Sample selection with noise rate estimation in noise learning of medical image analysis

Sample selection with noise rate estimation in noise learning of medical image analysis

URL: http://arxiv.org/abs/2312.15233v2
Date: Thu, 11 Jul 2024 00:36:43 GMT
Title: Sample selection with noise rate estimation in noise learning of medical image analysis
Authors: Maolin Li, Giacomo Tarroni,
Abstract summary: This paper introduces a new sample selection method that enhances the performance of neural networks when trained on noisy datasets. Our approach features estimating the noise rate of a dataset by analyzing the distribution of loss values using Linear Regression. We employ sparse regularization to further enhance the noise robustness of our model.
Score: 3.9934250802854376
License: http://creativecommons.org/licenses/by/4.0/
Abstract: In the field of medical image analysis, deep learning models have demonstrated remarkable success in enhancing diagnostic accuracy and efficiency. However, the reliability of these models is heavily dependent on the quality of training data, and the existence of label noise (errors in dataset annotations) of medical image data presents a significant challenge. This paper introduces a new sample selection method that enhances the performance of neural networks when trained on noisy datasets. Our approach features estimating the noise rate of a dataset by analyzing the distribution of loss values using Linear Regression. Samples are then ranked according to their loss values, and potentially noisy samples are excluded from the dataset. Additionally, we employ sparse regularization to further enhance the noise robustness of our model. Our proposed method is evaluated on five benchmark datasets and a real-life noisy medical image dataset. Notably, two of these datasets contain 3D medical images. The results of our experiments show that our method outperforms existing noise-robust learning methods, particularly in scenarios with high noise rates. Key words: noise-robust learning, medical image analysis, noise rate estimation, sample selection, sparse regularization

Related papers

Learning with Noisy Foundation Models [95.50968225050012]
This paper is the first work to comprehensively understand and analyze the nature of noise in pre-training datasets. We propose a tuning method (NMTune) to affine the feature space to mitigate the malignant effect of noise and improve generalization.
arXiv Detail & Related papers (2024-03-11T16:22:41Z)
The role of noise in denoising models for anomaly detection in medical images [62.0532151156057]
Pathological brain lesions exhibit diverse appearance in brain images. Unsupervised anomaly detection approaches have been proposed using only normal data for training. We show that optimization of the spatial resolution and magnitude of the noise improves the performance of different model training regimes.
arXiv Detail & Related papers (2023-01-19T21:39:38Z)
Improving the Robustness of Summarization Models by Detecting and Removing Input Noise [50.27105057899601]
We present a large empirical study quantifying the sometimes severe loss in performance from different types of input noise for a range of datasets and model sizes. We propose a light-weight method for detecting and removing such noise in the input during model inference without requiring any training, auxiliary models, or even prior knowledge of the type of noise.
arXiv Detail & Related papers (2022-12-20T00:33:11Z)
Weak-signal extraction enabled by deep-neural-network denoising of diffraction data [26.36525764239897]
We show how data can be denoised via a deep convolutional neural network. We demonstrate that weak signals stemming from charge ordering, insignificant in the noisy data, become visible and accurate in the denoised data.
arXiv Detail & Related papers (2022-09-19T14:43:01Z)
Robust Medical Image Classification from Noisy Labeled Data with Global and Local Representation Guided Co-training [73.60883490436956]
We propose a novel collaborative training paradigm with global and local representation learning for robust medical image classification. We employ the self-ensemble model with a noisy label filter to efficiently select the clean and noisy samples. We also design a novel global and local representation learning scheme to implicitly regularize the networks to utilize noisy samples.
arXiv Detail & Related papers (2022-05-10T07:50:08Z)
Hard Sample Aware Noise Robust Learning for Histopathology Image Classification [4.75542005200538]
We introduce a novel hard sample aware noise robust learning method for histopathology image classification. To distinguish the informative hard samples from the harmful noisy ones, we build an easy/hard/noisy (EHN) detection model. We propose a noise suppressing and hard enhancing (NSHE) scheme to train the noise robust model.
arXiv Detail & Related papers (2021-12-05T11:07:55Z)
Improving Medical Image Classification with Label Noise Using Dual-uncertainty Estimation [72.0276067144762]
We discuss and define the two common types of label noise in medical images. We propose an uncertainty estimation-based framework to handle these two label noise amid the medical image classification task.
arXiv Detail & Related papers (2021-02-28T14:56:45Z)
Joint self-supervised blind denoising and noise estimation [0.0]
Two neural networks jointly predict the clean signal and infer the noise distribution. We show empirically with synthetic noisy data that our model captures the noise distribution efficiently.
arXiv Detail & Related papers (2021-02-16T08:37:47Z)
Adaptive noise imitation for image denoising [58.21456707617451]
We develop a new textbfadaptive noise imitation (ADANI) algorithm that can synthesize noisy data from naturally noisy images. To produce realistic noise, a noise generator takes unpaired noisy/clean images as input, where the noisy image is a guide for noise generation. Coupling the noisy data output from ADANI with the corresponding ground-truth, a denoising CNN is then trained in a fully-supervised manner.
arXiv Detail & Related papers (2020-11-30T02:49:36Z)

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.