用于医学图像识别的卷积递归神经网络

2024 International Conference on Optimization Computing and Wireless Communication (ICOCWC) Pub Date : 2024-01-29 DOI:10.1109/ICOCWC60930.2024.10470932

Pankaj Saraswat, R. Naaz, K. R

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引用次数: 0

摘要

卷积递归神经网络（CRNN）是用于科学照片识别的人工神经网络。CRNNs 由许多卷积层和递归层组成，旨在将输入的快照映射到典型的复杂标签以及检查结果或诊断。这使它们成为科学照片普及的有效设备，因为它们可以从大型数据集中正确学习并做出正确预测。一般的 CRNN 结构会包含许多卷积层，这些卷积层用于提取照片功能，并使用递归神经网络（RNN）进行观察，RNN 对各种功能之间的时序家族成员进行编码。然后，利用完全连接层将 RNN 的输出解码为标签。与其他策略相比，CRNN 可以从未加工的科学图片中提取高级语义和时间特征，准确性更高，速度更快。它们还能利用海量数据集，因此在需要大量分类记录的软件包中备受青睐。

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Convolutional Recurrent Neural Networks for Medical Image Recognition

Convolutional Recurrent Neural Networks (CRNNs) are artificial neural networks used in scientific photo recognition. CRNNs are composed of numerous convolutional and recurrent layers, designed to map enter snapshots to typically complicated labels along with exam outcomes or diagnoses. It makes them an effective device for scientific photograph popularity, as they could learn from big datasets correctly and make correct predictions. An average CRNN structure will encompass numerous convolutional layers that extract photograph functions, observed using a recurrent neural community (RNN) that encodes the temporal family members among capabilities. The output of the RNN is then decoded into a label using a completely connected layer. Compared to different strategies, CRNNs can extract high-stage semantic and temporal features from uncooked scientific pictures with better accuracy and pace. they're also able to leverage massive datasets and are consequently favored for packages in which huge quantities of categorized records are to be had.

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2024 International Conference on Optimization Computing and Wireless Communication (ICOCWC)

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