ENHANCING DATA SECURITY IN SPORTS MEDICINE: A DYNAMIC ROLE-BASED ACCESS CONTROL METHOD FOR MANAGING MEDICAL INFORMATION

Abstract

Objective: This study investigates the implementation of a dynamic control method for medical access using an improved Role-Based Access Control (RBAC) model, focusing on enhancing data security in sports medicine environments post-pandemic. Methods: Amidst the complexities of the modern medical landscape, especially in sports medicine where sensitive athlete health data is prevalent, establishing robust security protocols is critical. This paper explores the adaptation of the RBAC system to address these challenges, integrating dynamic control mechanisms to manage access to confidential medical records effectively. The study includes a comprehensive analysis of the RBAC model and dynamic access control strategies, supported by experimental simulations and theoretical evaluations. Results: The findings demonstrate that the enhanced RBAC model provides a significant improvement in security measures compared to traditional access control methods. The experimental results, quantified through relevant security metrics, show a 23.6% increase in security and satisfaction scores, indicating a robust enhancement in safeguarding sensitive medical information. Conclusion: The adapted RBAC model effectively meets the stringent security demands of the sports medicine field, ensuring the confidentiality and integrity of athlete health data. This method not only improves security but also enhances operational efficiency, making it a viable solution for sports health professionals seeking to protect sensitive information in a challenging medical environment. The implications for sports medicine are profound, suggesting that such a dynamic access control system can significantly aid in the responsible handling and protection of athlete-specific medical records.