The development of the non-terrestrial networks thereof represents a shift in global communication, where Low Earth Orbit (LEO), Medium Earth Orbit (MEO), and Geostationary Earth Orbit (GEO) satellite networks have merged into one. Such advanced satellite networks can provide good, lossless, and dependable connectivity in some of the most extreme fringes of the earth.
IPLOOK therefore considered the development of the ground-breaking LEO solution leveraging terrestrial-based mobile core networks with extended function for satellite communication.
Key Technical Innovations in IPLOOK’s LEO Solution:
Optimized User Plane Function (UPF): Reduces energy consumption through intelligent design, enhancing network efficiency while minimizing environmental impact.
Streamlined Communication Processes: Simplifies system interactions to ensure seamless service continuity, even in dynamic environments.
Dynamic Topology Adaptation: Leverages spatio-temporal evolution to accelerate routing convergence, enabling faster and more adaptive network responses.
Real-Time UPF Integration: This enables real-time operations of the UPF, allowing the system to maximize performance with smallest latency for mission-critical applications.
Refined TCP/IP protocol stack: Protocols have been modified and transferred for data transmission so that enhanced throughput and reliability features are provided while outstanding demand for high-speed connectivity is met.
By integrating these innovations, IPLOOK's LEO provides a futuristic solution that meets the challenges of satellite communications and offers scalable, energy-efficient infrastructure to future-proof them. This solution demonstrates NTN technology's capacity to transform industries, close digital divides, and redefine standards for network reliability while demand for connection worldwide increases.
With IPLOOK’s LEO solution, the future of satellite communication is no longer a distant vision but a present-day reality.