As a deadly lung disease, pneumonia remains a leading cause of mortality in children under five years old.
Machine learning, especially deep learning, has played a significant role in improving the detection and identification of various diseases in the field of healthcare.
Neural networks, especially the recent developments in newer architectures, have revolutionized object identification and classification applications in the clinical diagnosis of various diseases.
This study presents the application of Convolutional Neural Networks (CNNs) for the timely and accurate detection of pneumonia using chest X-rays, a development with considerable potential for aiding clinical diagnosis.
This study deployed dropout regularization in model design to mitigate overfitting and relied on recall and F1 scores for thorough model evaluation.
Although comparable studies achieved higher overall accuracy, our models registered a recall rate of 98\%, crucial in reducing false negatives and enhancing patient safety.
This suggests the potential of our CNN model as a vital tool for healthcare professionals in early pneumonia detection in children and adults, with the capacity to process a high volume of X-ray images rapidly and accurately.
The successful construction of our model was enabled by various parameter-tuning techniques, thus enhancing patient care efficiency and the potential to decrease mortality rates.