Demystifying Domain-Specific Key Drivers in Telecom Technologies
P Ashok, Giri Hallur
Abstract
5G continues to expand globally, offering faster data speeds and improved connectivity. Open Radio Access Network (OpenRAN) gains momentum, introducing a more adaptable and economical strategy to network deployment. Massive Multiple Input Multiple Output (MIMO) technology evolves, enhancing network capacity and spectral efficiency. IP Multimedia Subsystem (IMS) enhances multimedia services integration, while Multi-Protocol Label Switching (MPLS) ensures efficient data transfer. Cloud Computing enables scalable and on-demand resources, while Metro Ethernet extends high-speed connectivity. IPv6 adoption gains traction, addressing the growing need for unique addresses. Mobile Data Traffic Offloading eases cellular network congestion through alternative data paths. Self-Organizing Networks (SON) automates network optimization and management, improving performance. Software Defined Network (SDN) and Network Function Virtualization (NFV) revolutionize network infrastructure, enhancing flexibility and scalability. SoftwareDefined Wide Area Networks (SD-WAN) streamlines branch connectivity, facilitating efficient and cost-effective data routing. Submarine Cable Systems continue to expand, providing high-speed data transmission across continents. Internet of Things (IoT) innovations drive the integration of smart devices, revolutionizing various industries. Rich Communication Services-enhanced (RCS-e) enhances multimedia messaging experiences, fostering seamless communication. These advancements collectively shape a transformative landscape, fostering innovative applications and accelerating the 5G revolution and collectively pave the way for a more connected and efficient digital world. This research work aims to explore the domain specific key-drivers in next generation telecom technologies.