Thesis Abstract

Abstract
This thesis explores the application of Artificial Intelligence (AI) in radiography to enhance diagnostic accuracy and efficiency in medical imaging. The healthcare industry has seen rapid advancements in technology, with AI emerging as a promising tool to revolutionize radiographic practices. The primary aim of this research is to investigate how AI can be effectively utilized in radiography to improve diagnostic outcomes, streamline workflow, and enhance patient care. The study reviews existing literature on AI in radiography, discusses key methodologies, and presents findings from interviews with radiographers and AI experts. The research methodology involves a mixed-methods approach, combining quantitative analysis of radiographic images with qualitative insights from healthcare professionals. The results demonstrate the potential of AI algorithms to assist radiographers in detecting abnormalities, reducing interpretation errors, and optimizing image quality. Furthermore, the study addresses ethical considerations, challenges, and implications of integrating AI systems into radiographic practice. The significance of this research lies in its contribution to the ongoing dialogue on leveraging AI technology to advance radiography and improve diagnostic accuracy. Overall, this thesis provides valuable insights into the practical application of AI in radiography and offers recommendations for future research and implementation strategies in the field.

Thesis Overview

The research project titled "Utilization of Artificial Intelligence in Radiography for Improved Diagnostics" aims to explore the application of artificial intelligence (AI) in the field of radiography to enhance diagnostic accuracy and efficiency. The integration of AI technologies into radiography has the potential to revolutionize the way medical imaging is interpreted and analyzed, leading to improved patient outcomes and healthcare delivery. The project will begin with a comprehensive literature review that examines existing studies and developments in the use of AI in radiography. This review will provide a foundation for understanding the current state of the field and identify gaps in knowledge that the research aims to address. The research methodology will involve the collection and analysis of data from various sources, including medical imaging datasets and AI algorithms. The study will focus on developing and testing AI models that can assist radiologists in interpreting imaging studies more accurately and quickly. By leveraging AI technology, the project seeks to enhance the diagnostic capabilities of radiographers and improve patient care. The findings of the study will be presented and discussed in detail in the fourth chapter of the thesis. This chapter will highlight the effectiveness of the AI models developed and provide insights into their potential impact on radiography practice. The discussion will also address any challenges or limitations encountered during the research process and suggest areas for future research and development. In conclusion, the project will summarize its key findings and contributions to the field of radiography. The research outcomes are expected to have significant implications for the healthcare industry, offering new opportunities for leveraging AI technology to enhance diagnostic accuracy and efficiency in radiography. Through this research, the potential of artificial intelligence in revolutionizing radiography for improved diagnostics will be explored and analyzed.