The telecom industry moves fast. 3GPP releases pile up. Engineers need to understand not just what the specifications say, but why โ and how to translate them into working systems. That's the gap Telnovat was built to close.
Comprehensive, video-based training on 5G Physical Layer and AI in telecom โ designed for engineers who need depth, not just an overview.
Blog posts that explain complex 3GPP concepts โ rate matching, scrambling, functional splits, data rate calculations โ with clarity and precision.
A growing community of 2,800+ engineers, students, and researchers sharing knowledge about 4G, 5G, and emerging 6G technology.
Principal Engineer at WiSig Networks ยท IIT Hyderabad & IIT Mandi Alumnus ยท Hyderabad, India
With over a decade of hands-on 5G engineering experience, our instructor has built deep expertise in 5G NR Physical Layer design, 3GPP specifications, and real-world network deployment. He holds an MS (thesis: "5G High PHY: Design, Development, and Validation") from IIT Hyderabad and a B.Tech from IIT Mandi โ and currently leads PHY development at WiSig Networks, contributing to India's indigenous 5G programme.
With 2,862 students across 3 courses and 21,000+ LinkedIn followers, the teaching approach is rooted in clarity: every concept explained from first principles, tied to real 3GPP spec sections, and illustrated with worked examples.
Telnovat (short for Telecom Innovation) began as a blog to share technical knowledge about 5G NR with the engineering community โ and has grown into a full training and knowledge-sharing platform with a global audience.
The name reflects the mission: bringing innovation to telecom education. We believe the best way to advance the wireless industry is to make deep technical knowledge available to anyone motivated to learn it โ whether they're a seasoned engineer or a student about to enter the field.
Since launching, Telnovat has attracted over 49,000 blog readers, 2,800+ course students, and a LinkedIn community following the latest in 5G and 6G developments.
Everything from channel coding and modulation to reference signals, MIMO, and beamforming โ the foundation of how 5G actually works over the air.
Functional splits, fronthaul design, O-DU and O-RU architecture, and how disaggregated RAN is reshaping the telecom vendor landscape.
How AI is being standardized in 3GPP for beam management, CSI feedback, UE positioning, and the path toward AI-native 6G air interfaces.
IMT-2030 vision, terahertz communications, semantic networks, energy efficiency, and what the 6G era means for engineers designing 5G systems today.
Whether you're starting your 5G journey or deepening expertise you already have, Telnovat has something for you. Start with a course, read the blog, or connect with us on LinkedIn.