STATE-OF-THE-ART COMPARISON OF MOBILESECURECOMM WITH MODERN SECURE COMMUNICATION PLATFORMS FOR TACTICAL OPERATIONS
Abstract
Modern military and critical missions depend on secure, fast, and flexible communication systems that can perform reliably across various operational environments. Legacy platforms such as SINCGARS, EPLRS, and CERT-based emergency systems have offered foundational services, but they fall short when it comes to adapting to new threats, supporting modern data-intensive operations, or integrating with advanced technologies like artificial intelligence and quantum encryption. This paper presents a state-of-the-art comparison between existing secure communication platforms and a newly proposed system called MobileSecureComm. Designed for tactical operations, MobileSecureComm combines modular architecture, quantum-ready encryption, and AI-driven routing to meet the growing demands of modern warfare and emergency response scenarios. The paper draws from extensive literature covering secure mobile platforms, military-grade messaging systems, mobile edge computing, and real-world deployment models. Using simulation-based analysis, the study compares MobileSecureComm to 25 secure communication platforms in terms of latency, throughput, security, interoperability, and resilience. The results show that MobileSecureComm consistently achieves lower latency, higher data throughput, and stronger security safeguards than traditional platforms. It also offers seamless integration with NATO-compliant systems and the flexibility to scale across multi-domain operations. This paper highlights the importance of designing secure communication platforms that are not only technically advanced but also adaptable to changing threats and diverse mission requirements. MobileSecureComm provides a forward-looking solution that can help bridge the gap between existing systems and the future of tactical communication.