ICNGC 2025 The 11th International Conference on Next Generation Computing 2025 (2025.12)바로가기
페이지
pp.322-325
저자
Kwangmin Yoo, Ki-Woong Park
언어
영어(ENG)
URL
https://www.earticle.net/Article/A478525
원문정보
초록
영어
Modern warfare demands tactical networks that can survive rapid Electronic Warfare adaptation. This study proposes a 5G Femtocell Drone Interconnected architecture utilizing Integrated Access and Backhaul and Network Slicing to establish self healing connectivity without wired infrastructure. The system addresses scalability and precision challenges through a Group Handover scheme and an adaptive navigation fusion of PTPsec and Visual Inertial Odometry. Furthermore, context aware Adaptive Policies are implemented to balance Zero Trust security with rapid network recovery. Simulation results confirm that this approach reduces signaling overhead by 86 percent and shortens link recovery time by 57 percent, effectively satisfying tactical requirements for survivability and cognitive superiority in GPS denied environments.
목차
Abstract I. INTRODUCTION II. CORE DESIGN AND TECHNICAL ANALYSIS OF 5G FEMTOCELL-DRONE INTERCONNECTED ARCHITECTURE A. Integrated Access and Backhaul Based Self-Healing Network B. Traffic Isolation and QoS Assurance through Network Slicing III. SECURITY FRAMEWORK: ZERO TRUST AND FIRMWARE RESILIENCY IV. HIGH-PRECISION NAVIGATION (PNT) STRATEGY IN GPS-DENIED ENVIRONMENTS A. PTP Vulnerabilities and Time Delay Attacks B. PTPsec and Cyclic Path Asymmetry Analysis C. Adaptive Time-Fusion and VIO (Ride-Through) V. CONCLUSION ACKNOWLEDGEMENT References