Gaganpreet Singh

5G relies on eMBB, URLLC, and mMTC. 6G expands with AI-driven verticals like holographic services, human-centric experiences, and extreme reliability.

The 6G ecosystem combines AI, security, chipsets, devices, edge, and cloud. Here’s how stakeholders like carriers, vendors, and policymakers shape the 6G future.

From AI to optical networks, 6G technology areas strongly impact KPIs like latency, reliability, and efficiency. Here’s how 6G requirements translate into measurable performance.

6G aims to surpass 5G with goals like 1 ms latency, 1 cm accuracy, massive capacity, and sustainability. Here’s how 6G is redefining telecom innovation.

Bearer network delay directly affects end-to-end latency in telecom systems. Explore where it occurs, why it matters, and how to optimize for ultra-low latency.

Cloud VR gaming depends on ultra-low Motion-to-Photon (MTP) latency. Learn how terminal, network, and server delays shape performance and strategies to reduce lag.

Discover how the three-layer EQN mapping model connects network baselines, quality requirements, and user experience in telecom for optimized service delivery.

Explore how telecom standards, network build strategies, and service selection interconnect. Learn the cycle from setting requirements to deploying services.

Discover how end-to-end (E2E) delay is segmented in 5G networks across wireless, bearer, core, and CDN layers. Learn how access, aggregation, and core processing shape latency.

5G simplifies signaling architecture compared to legacy cellular networks, improving efficiency, scalability, and flexibility while supporting next-gen services.