Gaganpreet Singh

Explore how Wi-Fi channel availability differs across the 2.4 GHz, 5 GHz, and 6 GHz bands. Learn how these variations impact network performance and planning.

Explore how the 6 GHz, 5 GHz, and 2.4 GHz bands compare in available spectrum, channel bandwidths, and capacity for next-gen Wi-Fi and wireless technologies.

Explore how AI and the A1 interface are transforming Open RAN architecture with real-time intelligence, centralized control, and flexible radio access network automation.

Explore how O-RAN is transforming telecom with open interfaces, AI-driven RRM, and cloud-native architecture, enabling cost-effective and intelligent 5G deployments.

A detailed look at Wi-Fi evolution—from Wi-Fi 1 to Wi-Fi 6E—highlighting standards, speeds, bands, and MIMO features. Ideal for telecom and tech professionals.

Compare Wi-Fi 5, Wi-Fi 6, and Wi-Fi 6E across modulation, frequency bands, MU-MIMO, channel width, and energy-saving features like TWT and BSS Coloring.

Discover how end-to-end network slicing in 5G supports eMBB, uRLLC, and mMTC services using one physical infrastructure with MEC and virtualized control/user planes.

Discover how service-driven 5G architecture revolutionizes network design with slicing, Cloud RAN, and SOC for delivering eMBB, uRLLC, and mMTC services efficiently.

Discover how 5G networks achieve optimal coverage and performance by combining Sub-6 GHz low-band macro cells with high-band mmWave small cells using beamforming and backhaul strategies.

Explore the complete 5G evolution timeline from 3GPP Release 15 to Release 17. Understand NSA/SA deployment options and what each 3GPP release means for 5G networks.