The Complete Guide For 4G And 5G Technology

A Comprehensive Journey through Basic & Advanced Concepts for True Expertise in cellular Technology.

What you'll learn

You will have easy access to comprehensive knowledge of both fundamental and advanced aspects of 5G-NR and LTE

Upon completion of the course, your understanding and imagination of cellular technology will be significantly enhanced.

Upon completion of the course, you will have cultivated critical thinking and debugging skills that will enable you to effectively analyze and troubleshoot.

The course will act as a prerequisite for Upcoming Telecommunication wireless Technologies.

Requirements

No programming skills are required To master this course.

A basic understanding of wireless concepts and networking concepts are enough.

Description

Welcome to our comprehensive integrated LTE + 5G NR course, where you'll embark on a transformative journey into the world of Cellular Technology. In this in-depth program, we demystify the intricate workings of LTE and 5G-NR technology, equipping you with the knowledge and skills needed to excel in the dynamic field of wireless communication.Our expertly crafted curriculum begins with a strong foundation in the fundamentals of LTE and latter covers 5G-NR(Air interface) in detail, ensuring that you grasp the core principles with ease. You'll explore key concepts, including waveform design, numerology, and frame structure, setting the stage for a deeper understanding of LTE and 5G NR.As you progress, we'll delve into advanced topics, from massive MIMO and beamforming to network architecture and slicing. You'll gain practical insights into the latest developments in 5G NR, enabling you to stay at the forefront of this cutting-edge technology.Our engaging lessons, hands-on exercises, and real-world case studies provide you with a holistic learning experience. Whether you're an aspiring engineer, a seasoned professional, or simply a curious enthusiast, this course caters to all levels of expertise.Join us on this educational voyage, and emerge as a Cellular Technology expert, ready to make a significant impact in the world of wireless communication. Enroll now and unlock the limitless possibilities of Cellular wireless Technology

Overview

Section 1: Introduction - The History Of Telecommunication

Lecture 1 Session-1-OSI_stack_and_communication_system_Basics

Lecture 2 LTE-2-Basics1_History_of_Telecommunication_system

Section 2: LTE Basics and Network Architecture

Lecture 3 LTE-3-Basics-2_History conti. and Network elements

Lecture 4 LTE-4-Basics3_network Architecture Part 1

Lecture 5 LTE-5-Basics4_network Architecture Part 2

Lecture 6 LTE-6-Basics5_network_Architecture_and_protocol_Stack

Lecture 7 LTE-7-Basics6_important_Identifiers Used in the LTE network

Lecture 8 LTE-8-Basics7 identifiers conti and Important Network aspects

Lecture 9 LTE-9-Basics8_ QoS_and_related concepts

Section 3: LTE Layer 1 Concepts and Physical Layer Processing

Lecture 10 LTE-10-layer_antenna_basics

Lecture 11 LTE-11- Multi Input Multi Output Technology

Lecture 12 LTE-12-Layer-1 different frame structures and types used in LTE (FDD/TDD)

Lecture 13 LTE-13-layer-1 Error correction techniques

Lecture 14 LTE-14-channel impairments and fading

Lecture 15 LTE-15-OFDMA_ICI_ISI (inter carrier and inter Symbol Interference )

Lecture 16 LTE-16-Cyclic-prefix- OFDMA Block for TX and RX , CRC and Interleaving

Lecture 17 LTE-17-Physical_layer_processing-Rate matching and Modulations

Lecture 18 LTE-18-Physical_layer_processing_PAPR and SC-FDMA introduction

Section 4: LTE DownLink Channels

Lecture 19 LTE-19- Basic Introduction to channels

Lecture 20 LTE-20-The Secondary synchronisation channel

Lecture 21 LTE-21-The Reference Signal and mapping on Resource grid

Lecture 22 LTE-22- PBCH (Physical Broadcast Channel) and Master Information Block (MIB)

Lecture 23 LTE-23-PCFICH and PHICH channels

Lecture 24 LTE-24 PDCCH (Physical Downlink Control Channel) Part 1

Lecture 25 LTE-25 PDCCH ( Physical Downlink control channel) Part 2

Lecture 26 LTE-26 PDCCH Part 3 and Downlink Control Information (DCI)

Lecture 27 LTE-27-RAT (resource allocation Types) in LTE

Lecture 28 LTE-28-HARQ-processing

Section 5: LTE Uplink Channels

Lecture 29 LTE-29 PUSCH (Physical UL shared channels) and Sounding Reference Signal (SRS)

Lecture 30 LTE-30 Channel State Information (CSI) reporting

Lecture 31 LTE-31 Throughput calculation in details

Lecture 32 LTE-32 Uplink POWER CONTROL for PUSCH

Lecture 33 LTE-33 Uplink POWER CONTROL for PUCCH and Random access channel introduction

Lecture 34 LTE-34 Random access channel (RACH) in detail

Lecture 35 LTE-35 RACH processing

Lecture 36 LTE-36 UE Paging Process from Physical Layer point of view

Section 6: LTE Layer 2 PDCP and RLC

Lecture 37 LTE-37 Layer 2 PDCP header structure and data processing

Lecture 38 LTE-38 PDCP part 2 and (radio Link Controller ) RLC introduction

Lecture 39 LTE-39 Layer 2-RLC Header and data processing with PDU decoding examples

Section 7: LTE Layer 2 Media Access Control (MAC) and Procedures

Lecture 40 LTE-40 MAC Introduction, Downlink and Uplink link Adaptation and MCS selection

Lecture 41 LTE-41 MAC - Priority handling and scheduling and Buffer status Reporting

Lecture 42 LTE-42-Layer2-MAC_Headers with PDU decoding

Lecture 43 LTE-43_L2-MAC-procedures-PHR-Timing Advance

Lecture 44 LTE-44_L2-MAC-procedures-DRX-Explained

Lecture 45 LTE-45_L2-MAC_Scheduling and schedulers

Section 8: LTE Layer 3 Radio Resource Controller (RRC)

Lecture 46 LTE-46_L3-RRC-states and system information

Lecture 47 LTE-47_L3-RRC_system information continue…

Lecture 48 LTE-48_L3-introduction to NAS-S1AP-X2AP and PLMN section procedure

Lecture 49 LTE-49_L3-RRC_Network Entry and QCAT log session

Lecture 50 LTE-50_L3-RRC_Attach or initial acquisition procedure

Lecture 51 LTE-51_L3-RRC_Detach

Lecture 52 LTE-52_L3-RRC_Service_Request procedure

Lecture 53 LTE-53_L3-RRC_Tracking Area Update Procedures

Section 9: LTE Handovers

Lecture 54 LTE-54_Layer3_RRC_Handovers_session-1

Lecture 55 LTE-55_Layer3_RRC_Handovers_session-2

Lecture 56 LTE-56_Layer3_RRC_Handovers_session-3

Lecture 57 LTE-57_Layer3_s1ap and X2ap Handover procedures

Lecture 58 LTE-69-Carrier-aggrigation a detailed overview

Section 10: 5G-NR Introduction and Fundamental concepts

Lecture 59 Introduction to 5G-NR (New Radio)

Lecture 60 5G-NR Network Architecture Part-1

Lecture 61 5G-NR Network Architecture Part-2

Lecture 62 5G-NR Dual Connectivity Basic Intoduction

Lecture 63 5G-NR Dual Connectivity Part-2

Lecture 64 5G-NR The Quality of Services

Lecture 65 5G-NR The RRC (Radio Resource Controller) and NAS states

Lecture 66 5G-NR Interfaces and Access control concepts

Section 11: 5G-NR Layer-1 Air interface and Physical Layer concepts

Lecture 67 5G-NR Air interface Introduction

Lecture 68 5G-NR Waveforms and Frame structure

Lecture 69 The 5G-NR Timing Unit

Lecture 70 Timing Advance concept in 5G-NR

Lecture 71 5G-NR Frequency Bands

Lecture 72 5G-NR Bandwidth Parts in details

Section 12: 5G-NR Layer-1 Massive MIMO and Beamforming

Lecture 73 Massive MIMO and Beamforming concepts

Lecture 74 Beam-Management Procedures

Section 13: 5G-NR Layer-1 Air interface- Downlink channels

Lecture 75 5G-NR Channels Introductions

Lecture 76 5G-NR Physical Layer Processing

Lecture 77 5G-NR Primary and Secondary Sinc Signals (PSS and SSS)

Lecture 78 5G-NR Physical Broadcast Channel (PBCH)

Lecture 79 5G-NR Physical Downlink Control channel (PDCCH)

Lecture 80 5G-PDCCH control resourse Set (CORESET)

Lecture 81 Physical Downlink Shared Channel (PDSCH) & demodulation reference Signals (DMRS)

Section 14: 5G-NR Layer-1 Air interface- Uplink channels

Lecture 82 The Random Access channel and procedures in 5G-NR Part-1

Lecture 83 The Random Access channel and procedures in 5G-NR Part-2

Lecture 84 5G-NR Physical Uplink Shared Channel (PUSCH)

Lecture 85 5G-NR Physical Uplink Control Channel (PUCCH)

Lecture 86 Demodulation Reference Signals in 5G-NR

Lecture 87 Channels State Information Reference Signals (CSI-RS) 5G-NR

Lecture 88 Sounding Reference Signal (SRS) and codebook & non-codebook based PUSCH Tx

Lecture 89 5G-NR Phase Tracking Reference Signals in Detail

Section 15: Tools used and Testing Procedure

Lecture 90 LTE-60-Important_Linux-Commands

Lecture 91 LTE-61-Spirent Network Emulator for testing back haul impairements

Lecture 92 LTE-62-TM500-The UE simulator session 1

Lecture 93 LTE-63-TM500-The UE simulator session 2

Lecture 94 LTE-64-Testing procedure End-to-End and Test cycle

Lecture 95 LTE-65-tool_used_in_testing_and_labsetups

Lecture 96 LTE-66-QXDM_1_configuration and predation

Lecture 97 LTE-67-QXDM_2_Logging and demonstration of the interface.

Lecture 98 LTE-68-Mediatek-ELT-tool demonstration

This course is intended for all the technology enthusiasts who are interested to lean the bits and bytes of LTE and 5G-NR, with a strong ambition to become a proficient wireless protocol tester or developer.