Predicting Blood Type: Assessing Model Performance with ROC Analysis

ABSTRACT Introduction: Personal identification is a critical aspect of forensic sciences, security, and healthcare. While conventional biometrics systems such as DNA profiling and iris scanning offer high accuracy, they are time - consuming and costly . Objectives: This study investigates the relationship between fingerprint patterns and ABO blood group classification to explore potential correlations between these two traits. Methods: The study analyzed 200 individuals, categorizing their fingerprints into three types: loops, whorls, and arches. Blood group classification was also recorded. Statistical analysis, including chi - square and Pearson correlation tests, was used to assess asso ciations between fingerprint patterns and blood groups. Results: Loops were the most common fingerprint pattern, while blood group O+ was the most prevalent among the participants. Statistical analysis revealed no significant correlation between fingerprint patterns and blood groups (p > 0.05), suggesting that these tra its are independent. Conclusions: Although the study showed limited correlation between fingerprint patterns and ABO blood groups, it highlights the importance of future research using larger and more diverse populations, incorporating machine learning approaches, and integrating multiple biometric signals. This study contributes to forensic science by emphasizing the need for rigorous protocols and comprehensive investigations in personal identification . INTRODUCTION The unambiguous identification of individuals is essential to the functioning of modern society, enabling important technologies in forensic science, medical diagnostics, secure access systems and the identification of victims in mass disasters. However, these techniques are frequently limited by practical constraints, such as high costs, specialized equipment, well - trained personnel, and time - sensitive sample analysis.