Table of Contents:**
1. Introduction
  - Background and significance of tsunami hazards
  - Objectives of the study
  - Scope and methodology
  - Definition of key terms
  - Overview of tsunami-prone regions
  - Importance of tsunami modeling for disaster preparedness
2. Literature Review
  - Tsunami generation mechanisms
  - Numerical modeling approaches for tsunami simulation
  - Previous studies on tsunami propagation and coastal inundation
  - Advances in tsunami warning systems
  - Case studies of historical tsunami events
  - Challenges in tsunami modeling and prediction
  - Role of coastal engineering in tsunami mitigation
3. Methodology
  - Selection of study area
  - Collection of tsunami source data
  - Numerical modeling techniques employed
  - Calibration and validation of tsunami models
  - Sensitivity analysis of model parameters
  - Simulation scenarios and input data requirements
  - Ethical considerations in tsunami research
4. Results and Analysis
  - Simulation of tsunami propagation and coastal inundation scenarios
  - Evaluation of model performance
  - Identification of vulnerable coastal areas
  - Assessment of wave heights and run-up distances
  - Comparison with observed tsunami data
  - Uncertainty analysis in tsunami modeling
  - Interpretation of simulation results
5. Discussion
  - Implications of modeling results for coastal hazard assessment
  - Strategies for improving tsunami warning and evacuation systems
  - Integration of tsunami modeling with land use planning
  - Engineering solutions for coastal resilience
  - Public education and outreach initiatives
  - International cooperation in tsunami risk reduction
  - Future research directions in tsunami modeling
6. Conclusion
  - Summary of key findings
  - Contributions to the field
  - Limitations of the study
  - Recommendations for policy and practice
  - Conclusion and recommendations