The chest X-ray is among the most widely used diagnostic imaging for diagnosing many lung and bone-related diseases. Recent advances in deep learning have shown many good performances in disease identification from chest X-rays. But stability and class imbalance are yet to be addressed. In this study, we proposed a CX-Ultranet (Chest X-ray Ultranet) to classify and identify thirteen thoracic lung diseases from chest X-rays by utilizing a multiclass cross-entropy loss function on a compound scaling framework using EfficientNet as a baseline. The CX-Ultra net achieves 88% average prediction accuracy on NIH Chest X-ray Dataset. It takes ≈ 30% less time than pre-existing state-of-the-art models. The proposed CX-Ultra net gives higher average accuracy and efficiently handles the class imbalance issue. The training time in terms of Floating-Point Operations Per Second is significantly less, thus setting a new threshold in disease diagnosis from chest X-rays.

Creator

• Kabiraj, Anwesh
• Roy, Sudipta
• Reddy, Pailla Balakrishna
• Meena, Tanushree

Colaboradores

• Jio Institute, CVMI-Computer Vision in Medical Imaging Project

Subject

• Artificial Intelligence
• Data Science

Publisher

• Springer Nature

Language

• English

Identifier

• 10.1007/978-3-031-20713-6_34
• 978303120713634

Palabra Clave

• Thoracic disease
• Chest X-ray
• Disease detection
• Medical Imaging

Date created

• 2022

Ubicación

• Switzerland

Related url

•  https://link.springer.com/10.1007/978-3-031-20713-6_34

Resource type

• Part of Book

Source

• Advances in Visual Computing

Rights statement

• http://rightsstatements.org/vocab/InC/1.0/

License

• All rights reserved