Thesis Abstract

Abstract
The implementation of artificial intelligence (AI) in radiography has garnered significant attention in recent years due to its potential to enhance diagnostic accuracy and efficiency. This thesis explores the integration of AI technologies in radiography to improve the detection and interpretation of medical images. The aim of this research is to investigate the impact of AI on radiography practices, specifically focusing on its ability to enhance diagnostic accuracy and streamline workflow processes. The study begins with a comprehensive review of the existing literature on AI applications in radiography, highlighting the benefits and challenges associated with its implementation. Through a systematic analysis of ten key studies, this literature review identifies trends and gaps in current research, providing a foundation for the subsequent research methodology. The research methodology section outlines the approach taken to investigate the impact of AI in radiography. This includes a detailed description of the research design, data collection methods, and analytical techniques used to evaluate the effectiveness of AI technologies in improving diagnostic accuracy. The study incorporates both quantitative and qualitative data analysis to provide a comprehensive understanding of the benefits of AI in radiography. The findings of this research demonstrate the significant potential of AI in enhancing diagnostic accuracy in radiography. By leveraging machine learning algorithms and deep learning techniques, AI systems can assist radiologists in detecting abnormalities and making accurate diagnoses. Furthermore, the integration of AI technologies in radiography workflows has the potential to streamline image interpretation processes and improve overall efficiency in healthcare settings. The discussion of findings section critically evaluates the implications of the study results and discusses the practical implications of implementing AI in radiography practices. This includes considerations for training and education of radiology professionals, as well as the ethical and legal implications of using AI in medical imaging. The study also addresses limitations and challenges associated with AI implementation in radiography, providing recommendations for future research and practice. In conclusion, this thesis highlights the transformative potential of AI technologies in radiography for improving diagnostic accuracy and workflow efficiency. The findings of this research underscore the importance of leveraging AI to enhance radiology practices and ultimately improve patient outcomes. By embracing AI innovations in radiography, healthcare institutions can optimize their diagnostic capabilities and provide more effective and timely patient care.

Thesis Overview