Integrated Approaches to Enhancing Cross-Layer Communication and Antenna Design for Next-Generation Wireless Networks
DOI:
https://doi.org/10.31838/NJAP/07.01.16Keywords:
Cross-Layer Communication,, Antenna Design,, Next-Generation Wireless Networks,, Multilingual Engineering,, Cognitive Load,, Protocol Stack Optimization,, Smart Antennas,, System Integration,, Spectral Efficiency,, Adaptive Wireless SystemsAbstract
The evolution of next-generation wireless networks demands robust, adaptive, and intelligent communication architectures that can efficiently integrate multiple layers of the network stack with hardware design components such as antennas. This paper presents an integrated approach to enhancing cross-layer communication and antenna design, focusing on achieving higher spectral efficiency, real-time adaptability, and reliable performance in complex and multilingual engineering environments. Cross-layer strategies allow dynamic interaction between protocol layers, facilitating better resource allocation, interference management, and quality of service. Simultaneously, advances in antenna engineering, including smart antennas and reconfigurable meta surfaces, empower physical layer optimization that directly benefits from upper-layer context awareness. The proposed framework unifies linguistic alignment and engineering strategies to mitigate semantic gaps across disciplines and languages. Through case studies and simulations, we demonstrate the synergy between communication protocols and antenna configurations and highlight their critical role in supporting scalable, resilient wireless systems. The findings provide a foundation for developing multilingual, collaborative, and high-performance network infrastructures .
