Slide 1: Title Slide: Radiation Imaging of Radioactive Materials in Nuclear Power Plants. Slide 2: Slide 1: Introduction - The Imperative of Nuclear Safety. Slide 3: Slide 2: Nuclear Power Plant Basics. Slide 4: Slide 3: Radioactive Materials in NPPs. Slide 5: Slide 4: Radiation Hazards and Monitoring. Slide 6: Slide 5: Problem Statement - Need for Advanced Inspection. Slide 7: Slide 6: Literature Review - Current NDT Methods. Slide 8: Slide 7: Limitations of Existing Methods for Radiation Mapping. Slide 9: Slide 8: Research Gap - The Need for Radiation Imaging. Slide 10: Slide 9: Thesis Objective - Developing Advanced Techniques. Slide 11: Slide 10: Research Questions. Slide 12: Slide 11: Methodology - Overview of Proposed Approach. Slide 13: Slide 12: Methodology - Radiation Detection Principles. Slide 14: Slide 13: Methodology - Imaging Modalities. Slide 15: Slide 14: Methodology - Data Acquisition and Processing. Slide 16: Slide 15: Methodology - Simulation and Modeling. Slide 17: Slide 16: Methodology - Experimental Setup and Validation. Slide 18: Slide 17: Expected Results - Improved Imaging Resolution. Slide 19: Slide 18: Expected Results - Enhanced Sensitivity. Slide 20: Slide 19: Expected Results - Enhanced Material Identification. Slide 21: Slide 20: Expected Results - Faster and More Efficient Inspection. Slide 22: Slide 21: Expected Results - Contribution to Nuclear Safety. Slide 23: Slide 22: Discussion - Significance of Improved Radiation Imaging. Slide 24: Slide 23: Discussion - Impact on Plant Operation and Maintenance. Slide 25: Slide 24: Discussion - Challenges and Limitations. Slide 26: Slide 25: Discussion - Applications Beyond Nuclear Power Plants. Slide 27: Slide 26: Conclusion - Summary of Research Contributions. Slide 28: Slide 27: Conclusion - Achievement of Thesis Objectives. Slide 29: Slide 28: Future Work - Next Steps and Research Extensions. Slide 30: Slide 29: References. Slide 31: Slide 30: Acknowledgements and Thank You