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Gaganpreet Singh

Gaganpreet Singh

Hybrid SON in Telecom: Architecture, Benefits, and Role in 5G Networks

Hybrid SON combines centralized and distributed SON architectures to deliver intelligent, adaptive, and efficient network management for 5G and future networks.

Centralized SON: Architecture, Workflow, and Benefits for Modern Mobile Networks

Centralized SON collects KPIs from RAN elements, processes them centrally, and sends commands for automated optimization, ensuring efficient network performance.

Centralized SON in Mobile Networks: Architecture, Functionality, and Benefits

Centralized SON enables network-wide optimization by collecting KPIs, sending commands, and automating parameter settings via OSS/EMS for improved RAN performance.

Understanding SON in Mobile Networks: Self-Configuration, Self-Optimization, and Self-Healing

Learn how Self-Organizing Networks (SON) enable automation in mobile networks with self-configuration, self-optimization, and self-healing, ensuring better RAN performance.

Typical Monitoring Service Requirements for Industrial Networks – Latency, Scalability & Connectivity

Understand end-to-end latency, data update time, and scalability requirements for condition monitoring in industrial networks for safety and efficiency.

Remote Access to Field Devices Through Gateways in the Industrial Automation Pyramid

Gateways at each level of the automation pyramid enable remote access to field devices, supporting data mapping, secure communication, and cloud connectivity.

Understanding EMS Architecture in Telecom Networks: FCAPS, NEs, and NMS Integration

Explore EMS architecture in telecom networks — how it manages Network Elements (NEs) using FCAPS, connects with NMS, and enables efficient end-to-end network management.

Star Topology in IoT Networks: How Sensor Devices Connect via Local Gateways to Base Stations

IoT sensor devices often use star topology, connecting to a local gateway that links to a base station for cloud connectivity. Discover how this architecture boosts scalability, energy efficiency, and network reliability.

Multi-Access Edge Computing (MEC): How Fog and Cloud Converge for Next-Gen IoT

Multi-Access Edge Computing (MEC) enables ultra-low latency by combining fog, edge, and cloud computing. Learn how MEC powers IoT, 5G, and real-time applications.

Multi-Access Edge Computing (MEC): How Fog, Edge, and Cloud Work Together

Discover how Multi-Access Edge Computing (MEC) integrates fog, edge, and cloud to enable ultra-low latency, real-time analytics, and scalable IoT solutions.