5g Private: All You Need - From Spectrum To Tco Analysis
Published 2/2026
Created by Gleb Marchenko
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz, 2 Ch
Level: All Levels | Genre: eLearning | Language: English | Duration: 63 Lectures ( 2h 51m ) | Size: 4.2 GB
✓ Evaluate and select the correct Private 5G deployment model based on your requirements
✓ Design 5G RF coverage that account for "Brownfield" industrial realities and select appropriate 5G frequency bands
✓ Link the identity gap between cellular SIM-based and Enterprise IAM (Active Directory)
✓ Specify correctly cabling, power, and PTP (IEEE 1588v2) timing synchronization systems
✓ Calculate a real Private 5G TCO model that includes hidden OpEx factors
✓ Establish redundancy strategies in Private 5G
✓ Mitigate risks related to vendor lock-in, geopolitical sanctions, and Network-as-a-Service (NaaS) loss of control.
Requirements
● Basic familiarity with mobile concepts is recommended.
Description
This isn't just "what private 5G is" course.
This is the complete operational Private 5G playbook that took me years of real deployments across mines, ports, factories, and critical infrastructure to build.
-Every 5G equipment selection mistake.
-Every OpEx surprise.
-Every time a "successful pilot" crashed during scale-up.
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Here's what you're actually getting
1) The architectural decisions such as: dedicated local 5G vs hybrid models, licensed vs shared spectrum (like CBRS) aspects, and the hidden TCO iceberg that kills 60% of projects by year 3.
2) 5G radio design aspects RF planning for industrial environments - from clean Greenfields to Brownfields realities with metal canyons, EMF compliance constraints, and TDD cross-link interference from public networks. I show you the material-specific penetration losses, the antenna placement tips and mistakes, and why your SINR distribution matters more than average 5G RSRP levels.
3) Security architecture for Operational realities. SIM-based zero trust, Active Directory integration for 10,000 devices, the identity translation layer between SIMs and enterprise IAM. You'll also understand why 5G network slicing isn't true isolation and when a physical dedicated network is non-negotiable.
4) Operations and economics most courses skip entirely: ow to write SLAs around real latency values, not average KPIs. How to prepare your "War Room" protocols before the network fails. As well as some geopolitical vendor risks, the staffing gap that turns your CapEx win into an OpEx easily. The exact ROI model for downtime-based justification that gets board approval.
Most "private 5G experts" have only done vendor-assisted pilots (in the best case). I'm giving you the frameworks to architect, deploy, and operate production networks where downtime costs $10K/minute.
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P.S.
Actually, you're not buying this course.
No...
You're reverse-engineering a decade of my industrial wireless deployment experience into a 3-hour compressed knowledge.
Who this course is for
■ Network Architects & Engineers: Who need to know how to deploy mission-critical cellular infrastructure.
■ OT & Industrial Automation Managers: Who need to understand how 5G can actually support robotics, AGVs, and SCADA systems.
■ Technical Decision Makers (CTOs/CIOs): Who need to cut through the vendor hype, understand the real TCO, and avoid getting locked into a "Network-as-a-Service" contract.
■ System Integrators: Who need the technical confidence to consult clients on various Private 5G aspects.
5g Private: All You Need - From Spectrum To Tco Analysis
