USDL: Inexpensive Medical Imaging Using Deep Learning Techniques and Ultrasound Technology.

2020 Design of Medical Devices Conference (DMD 2020). Design of Medical Devices Conferences (2020 : Minneapolis, Minn.) Pub Date : 2020-04-01 Epub Date: 2020-07-27 DOI:10.1115/dmd2020-9109

Manish Balamurugan, Kathryn Chung, Venkat Kuppoor, Smruti Mahapatra, Aliaksei Pustavoitau, Amir Manbachi

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Abstract

In this study, we present USDL, a novel model that employs deep learning algorithms in order to reconstruct and enhance corrupted ultrasound images. We utilize an unsupervised neural network called an autoencoder which works by compressing its input into a latent-space representation and then reconstructing the output from this representation. We trained our model on a dataset that compromises of 15,700 in vivo images of the neck, wrist, elbow, and knee vasculature and compared the quality of the images generated using the structural similarity index (SSIM) and peak to noise ratio (PSNR). In closely simulated conditions, the architecture exhibited an average reconstruction accuracy of 90% as indicated by our SSIM. Our study demonstrates that USDL outperforms state of the art image enhancement and reconstruction techniques in both image quality and computational complexity, while maintaining the architecture efficiency.

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USDL：利用深度学习技术和超声波技术实现低成本医学成像。

在这项研究中，我们提出了一种采用深度学习算法的新型模型 USDL，以重建和增强损坏的超声波图像。我们利用了一种称为自动编码器的无监督神经网络，它的工作原理是将输入压缩为潜空间表示，然后根据该表示重建输出。我们在一个包含 15,700 幅颈部、手腕、肘部和膝部血管活体图像的数据集上训练了我们的模型，并使用结构相似性指数（SSIM）和峰噪比（PSNR）比较了生成图像的质量。在严密的模拟条件下，根据我们的结构相似性指数（SSIM），该架构的平均重建准确率达到了 90%。我们的研究表明，USDL 在保持架构效率的同时，在图像质量和计算复杂性方面都优于最先进的图像增强和重建技术。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 Design of Medical Devices Conference (DMD 2020). Design of Medical Devices Conferences (2020 : Minneapolis, Minn.)

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