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5G Wireless Standard Design

Engineering Academy

Engineering Academy

Learn Without Limits: Free Engineering Courses

Rating 4 (7)
Course typeWatch to learn anytime
Duration 1723 Min
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Language English
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5G Wireless Standard Design banner
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5G Wireless Standard Design

Why enroll

People join this course to understand how modern cellular standards are developed and implemented in real-world networks. It is especially valuable for students and professionals in electronics, communication engineering, and wireless technology who want to work in telecom companies, R&D labs, and next-generation network design. The course also helps learners prepare for advanced studies, research, and careers in 5G, IoT, and future wireless systems.

Opportunities that awaits you!

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Course content

The course is readily available, allowing learners to start and complete it at their own pace.

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5G Wireless Standard Design

60 Lectures

1723 min

  • Lecture 01 : Course Introduction

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    Preview

    26 min

  • Lecture 02 : Key 5G Technologies - Adaptive Modulation and Coding (AMC)

    38 min

  • Lecture 03 : Key 5G Technologies - Hybrid automatic repeat request (HARQ)

    34 min

  • Lecture 04 : Key 5G Technologies - Orthogonal frequency division multiplexing (OFDM)

    35 min

  • Lecture 05 : 5G Numerology

    33 min

  • Lecture 06 : 5G frame structure

    31 min

  • Lecture 07 : 5G physical downlink shared channel (PDSCH) transmit chain– CRC generation

    25 min

  • Lecture 08 : 5G PDSCH transmit chain – code block segmentation – part I

    21 min

  • Lecture 09 : 5G PDSCH transmit chain – LDPC coding

    28 min

  • Lecture 10 : 5G PDSCH transmit chain – code block segmentation – part II

    25 min

  • Lecture 11 : 5G PDSCH transmit chain – rate matching – part I

    34 min

  • Lecture 12 : 5G PDSCH transmit chain – rate matching – part II

    32 min

  • Lecture 13 : 5G PDSCH transmit chain – interleaving and concatenation

    23 min

  • Lecture 14 : 5G PDSCH transmit chain – scrambling and modulation

    30 min

  • Lecture 15 : 5G PDSCH transmit chain – recap

    22 min

  • Lecture 16 : 5G PDSCH receive chain – part I

    29 min

  • Lecture 17 : 5G PDSCH receive chain – part II

    29 min

  • Lecture 18 : 5G PDSCH – map receiver design part I

    24 min

  • Lecture 19 : 5G PDSCH – map receiver design part II

    30 min

  • Lecture 20 : 5G baseband – RF conversion

    29 min

  • Lecture 21 : Indigenous 5G network architecture

    22 min

  • Lecture 22 : 5G physical downlink control channel (PDCCH) transmit chain- introduction

    31 min

  • Lecture 23 : 5G PDCCH transmit chain – CRC and segmentation

    25 min

  • Lecture 24 : 5G PDCCH transmit chain – Polar encoding

    22 min

  • Lecture 25 : 5G PDCCH transmit chain – CRC interleaver

    21 min

  • Lecture 26 : 5G PDCCH transmit chain – sub-block interleaver

    35 min

  • Lecture 27 : 5G PDCCH transmit chain – rate matching

    22 min

  • Lecture 28 : 5G PDCCH transmit chain – control resource set (CORESET) design – part I

    29 min

  • Lecture 29 : 5G PDCCH transmit chain –CORESET design – part II

    30 min

  • Lecture 30 : 5G PDCCH transmit chain –CORESET design – part III

    24 min

  • Lecture 31 : 5G PDCCH transmit chain –CORESET design – part IV

    24 min

  • Lecture 32 : 5G physical uplink control channel (PUCCH) - part I

    29 min

  • Lecture 33 : 5G physical uplink control channel (PUCCH) - part II

    26 min

  • Lecture 34 : Multiple input multiple output (MIMO) transceiver chain – part I

    29 min

  • Lecture 35 : MIMO transceiver chain – part II

    35 min

  • Lecture 36 : MIMO transceiver chain – part III

    29 min

  • Lecture 37 : MIMO transceiver chain – part IV

    31 min

  • Lecture 38 : MIMO transceiver chain – part V

    25 min

  • Lecture 39 : MIMO transceiver chain – part VI

    27 min

  • Lecture 40 : MIMO transceiver chain – part VII

    29 min

  • Lecture 41 : 5G demodulation reference signal (DM-RS) design – part I

    29 min

  • Lecture 42 : 5G DM-RS design – part II

    21 min

  • Lecture 43 : 5G DM-RS design – part III

    29 min

  • Lecture 44 : 5G DM-RS design – part IV

    21 min

  • Lecture 45 : 5G sounding reference signal (SRS) design – part I

    31 min

  • Lecture 46 : 5G SRS design – part II

    30 min

  • Lecture 47 : 5G SRS design – part III

    29 min

  • Lecture 48 : 5G SRS design – part IV

    28 min

  • Lecture 49 : 5G SRS design – part V

    33 min

  • Lecture 50 : 5G channel state estimation reference signal (CSI-RS) – part I

    28 min

  • Lecture 51 : 5G CSI-RS – part II

    30 min

  • Lecture 52 : 5G MIMO transceiver chain – part I

    31 min

  • Lecture 53 : 5G MIMO transceiver chain – part II

    35 min

  • Lecture 54 : 5G MIMO codebook design – part I

    33 min

  • Lecture 55 : 5G MIMO codebook design – part II

    32 min

  • Lecture 56 : 5G FR1/FR2 design– part I

    35 min

  • Lecture 57 : 5G FR1/FR2 design– part II

    35 min

  • Lecture 58 : 5G FR1/FR2 design– part III

    28 min

  • Lecture 59 : 5G initial access - part I

    34 min

  • Lecture 60 : 5G initial access - part II

    28 min

Course details

5G Wireless Standard Design focuses on the principles, technologies, and architectural choices behind the fifth-generation mobile communication system. The course explains how 5G standards are designed to achieve ultra-high data rates, low latency, massive connectivity, and improved reliability. It covers both physical-layer innovations and system-level design aspects that enable applications such as enhanced mobile broadband, ultra-reliable low-latency communication, and massive machine-type communication

SOURCE-YOUTUBE[NPTEL]

Course suitable for

  • Telecommunication
  • Electronics & Telecommunication
  • Instrumentation

Key topics covered

  1. Evolution from 1G to 5G wireless systems

  2. 5G use cases: eMBB, URLLC, and mMTC

  3. 5G network architecture and protocol stack

  4. Physical layer design in 5G NR

  5. Multiple access techniques and numerology

  6. Massive MIMO and beamforming

  7. Millimeter-wave communication

  8. Channel coding and modulation schemes

  9. Scheduling, resource allocation, and latency reduction

  10. Standardization process and future roadmap beyond 5G

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