Course Outline
Introduction
• The philosophy and operational principles of telecom network deployment / What is end-to-end telecom site integration?
• Vendor-driven versus operator-driven deployment models
• An overview of 2G, 3G, 4G LTE, and 5G NR site architecture and integration workflows
• Beyond installation: governance, reporting structures, and performance accountability for government operations
Understanding the Telecom Site Deployment Lifecycle
• Site acquisition, surveying, and civil readiness
• Power, grounding, and transmission prerequisites
• Base Transceiver Station (BTS) installation and hardware integration
• Commissioning and initial configuration for government sites
Multi-Vendor BTS Deployment
• Huawei BTS installation and integration workflow for government projects
• ZTE BTS deployment and commissioning process in government contexts
• Best practices for Ericsson RBS installation in public sector applications
• Common field challenges and troubleshooting methods for government deployments
ATP and Handover Management
• ATP process and documentation requirements for government operations
• Compliance and acceptance standards for operators in the public sector
• Site readiness validation checklist for government sites
• Handover reporting and escalation procedures for government projects
Cluster and Regional Operations Management
• Structures of Master Business Units (MBUs), Sub-Zones, and Commercial Regions for government operations
• Regional reporting methodologies for public sector management
• Key Performance Indicator (KPI) monitoring and performance optimization in government contexts
• Capital Expenditure (CAPEX) and Operating Expense (OPEX) tracking at site and regional levels for government projects
Enterprise and Transmission Integration
• Microwave backhaul integration for government networks
• Fundamentals of Fiber to the x (FTTx) deployment for government applications
• Considerations for enterprise connectivity in public sector operations
Requirements
• Understanding of fundamental wireless communication principles, including radio frequency (RF) basics, cellular architecture, and networking concepts.
• Practical knowledge of 2G, 3G, 4G LTE, 5G NR, and Wi-Fi 6 / Wi-Fi 7 architectures.
• Basic familiarity with installation and integration procedures in telecommunications networks.
• Prior experience in telecom operations, site deployment, or network optimization is advantageous but not required.
Audience
• Telecom field engineers and site engineers
• RAN integration and optimization specialists
• Vendor engineers from companies such as Huawei, ZTE, and Ericsson
• Managed services and Network Operations Center (NOC) engineers
• Technical managers, cluster heads, and regional operations leaders
• Professionals involved with telecom operators or enterprise wireless networks for government.
Testimonials (4)
knowledge of the trainer
Daniela Nicolas - CONTINENTAL AUTOMOTIVE ROMANIA S.R.L
Course - 5G Network Architecture Fundamentals
The clarity with which it was presented
John McLemore - Motorola Solutions
Course - Deep Learning for Telecom (with Python)
Trainer knows very well the subject. He try to give a lot of examples in order that we understand "how" it is working. He answer to all questions raised. Very available.
christel salve - BICS
Course - Blockchain for Telecom
The varied topics
