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LionsGate Resources & White Papers
Download LionsGate white papers covering Private 5G vs Wi-Fi 6 and in-building DAS fundamentals, written for real-world, RF-hostile environments and practical deployment decisions.
Private 5G vs Wi-Fi 6
Title: How Private 5G Outperforms Wi-Fi 6
Subtitle: Industrial Manufacturing & Large Enterprise Campuses
Description (short):
Private 5G vs Wi-Fi 6 breakdown across coverage, mobility/handovers, security, and total cost of ownership—focused on large footprints and mission-critical operations.
How 5G outperforms WiFi 6
Key points (bullets):
Better coverage and mobility in complex, metal-dense environments.
How 5G outperforms WiFi 6
Stronger device identity/security model (SIM/eSIM, policy control).
How 5G outperforms WiFi 6
Often fewer radios and lower long-term TCO on big sites.
In-Building DAS Systems
Title: Understanding In-Building DAS Systems
Subtitle: How They Work + Best Practices
Description (short): Explains DAS fundamentals, active vs passive architectures, how signals are distributed indoors, and best practices for surveys, scalability, interference mitigation, and compliance.
Key points (bullets):
Clear overview of DAS components and signal flow (downlink/uplink).
Understanding In-Building DAS S…
Best practices: thorough RF survey + scalable design.
Understanding In-Building DAS S…
Interference + regulatory considerations for reliable performance.
5G Non-Terrestrial Network Architecture (NTN)
Title: Connecting the World with 5G NTN
Subtitle: Satellite + HAPS + UAV Architecture for Coverage Continuity and IoT Scale
Description:
Non-Terrestrial Networks (NTN) extend 5G coverage beyond traditional towers by integrating LEO/MEO/GEO satellites, HAPS, and UAV platforms into the 3GPP ecosystem. This overview explains service links vs feeder links, how traffic routes through gateways into terrestrial core networks, and the two primary deployment models: direct-to-device (NTN-NR / messaging/voice) and NTN backhaul (remote site transport). It also introduces practical NTN optimization and IoT strategies for reliable, low-power operation in remote, rural, maritime, and disaster scenarios.