Mastering 5G PHY- Complete Development Training

Mastering 5G PHY: Complete Development Training, available at $199.99, has an average rating of 4.97, with 90 lectures, based on 16 reviews, and has 32 subscribers.

You will learn about OFDM & basics of wireless communication Understanding of essential and advance modules in 5G Physical Layer SSBurst: PSS, SSS and PBCH PDCCH: Physical Downlink Control Channel understanding PDSCH: Physical Downlink Shared Channel understanding CSI-RS: Channel State Information Reference Signal understanding DMRS: Demodulation Reference Signal for DL and UL channels PRACH: Physical Random Access Channel understanding PUCCH: Physical Uplink control channels (F0, F1, F2, F3, F4) PUSCH: Physical Uplink Shared Channel understanding SRS: Sounding Reference Signal understanding PTRS: Phase Tracking Reference Signal understanding Power Control in DL and UL MIMO: Multiple Input and Multiple Output Antenna systems Understanding of Physical Layer 3GPP specification This course is ideal for individuals who are 3G/4G/5G Engineers working in testing field and wants to be developer or 4G/5G Engineer working in L2/MAC field and wants to be MAC expert or 4G/5G Physical Layer Engineer who wants to build in depth understanding or 4G/5G Radio Network Optimization Engineers or Graduating students who are looking for jobs in 4G/5G/6G field or Freshers who wants to switch their jobs to core 4G/5G/6G field It is particularly useful for 3G/4G/5G Engineers working in testing field and wants to be developer or 4G/5G Engineer working in L2/MAC field and wants to be MAC expert or 4G/5G Physical Layer Engineer who wants to build in depth understanding or 4G/5G Radio Network Optimization Engineers or Graduating students who are looking for jobs in 4G/5G/6G field or Freshers who wants to switch their jobs to core 4G/5G/6G field.

Enroll now: Mastering 5G PHY: Complete Development Training

Summary

Title: Mastering 5G PHY: Complete Development Training

Price: $199.99

Average Rating: 4.97

Number of Lectures: 90

Number of Published Lectures: 90

Number of Curriculum Items: 90

Number of Published Curriculum Objects: 90

Original Price: $199.99

Quality Status: approved

Status: Live

What You Will Learn

OFDM & basics of wireless communication

Understanding of essential and advance modules in 5G Physical Layer

SSBurst: PSS, SSS and PBCH

PDCCH: Physical Downlink Control Channel understanding

PDSCH: Physical Downlink Shared Channel understanding

CSI-RS: Channel State Information Reference Signal understanding

DMRS: Demodulation Reference Signal for DL and UL channels

PRACH: Physical Random Access Channel understanding

PUCCH: Physical Uplink control channels (F0, F1, F2, F3, F4)

PUSCH: Physical Uplink Shared Channel understanding

SRS: Sounding Reference Signal understanding

PTRS: Phase Tracking Reference Signal understanding

Power Control in DL and UL

MIMO: Multiple Input and Multiple Output Antenna systems

Understanding of Physical Layer 3GPP specification

Who Should Attend

3G/4G/5G Engineers working in testing field and wants to be developer

4G/5G Engineer working in L2/MAC field and wants to be MAC expert

4G/5G Physical Layer Engineer who wants to build in depth understanding

4G/5G Radio Network Optimization Engineers

Graduating students who are looking for jobs in 4G/5G/6G field

Freshers who wants to switch their jobs to core 4G/5G/6G field

Target Audiences

3G/4G/5G Engineers working in testing field and wants to be developer

4G/5G Engineer working in L2/MAC field and wants to be MAC expert

4G/5G Physical Layer Engineer who wants to build in depth understanding

4G/5G Radio Network Optimization Engineers

Graduating students who are looking for jobs in 4G/5G/6G field

Freshers who wants to switch their jobs to core 4G/5G/6G field

Course is currently under draft. Please come back after 25-Aug-2024

Become a Physical Layer Expert with 5G PHY Development Training Program

Dive into the cutting-edge world of 5G technology with our comprehensive training on the 5G Physical Layer (PHY). Designed for both beginners and experienced professionals, this training program will guide you through the intricacies of 5G PHY, from foundational concepts to advanced techniques.

What You’ll Learn:

3GPP Standards: Understand the crucial role of the 3rd Generation Partnership Project (3GPP) in shaping 5G technology and how its standards influence network architecture and performance.

Basic Modules of the Physical Layer: Explore the core components of 5G PHY, including modulation, coding, signal processing techniques, PN sequence, ZC sequence, and antennas that are part of the physical layer channels and signals.

SSBurst (Synchronization Signal Burst): Learn about synchronization signal bursts and their significance in 5G networks for facilitating initial access and mobility management.

PDCCH (Physical Downlink Control Channel): Gain insights into the PDCCH transmitter and receiver chains, CORESET, search space, blind decoding, and DCIs.

PDSCH (Physical Downlink Shared Channel): Master the workings of the PDSCH transmitter and receiver chains, MCS, transport blocks, and MIMO.

CSI-RS (Channel State Information Reference Signal): Understand how CSI-RS aids in channel estimation and optimization for enhanced data throughput and network efficiency.

DMRS (Demodulation Reference Signal): Explore the DMRS and its function in improving the accuracy of data demodulation and overall signal quality.

PUCCH (Physical Uplink Control Channel): Delve into the various formats of PUCCH and how they support uplink control information transmission.

PRACH (Physical Random Access Channel): Discover the PRACH and its role in facilitating random access procedures and initial connection setups in 5G networks.

PUSCH (Physical Uplink Shared Channel): Learn about the workings of the PUSCH transmitter and receiver chains, resource allocation, MCS, transport blocks, and MIMO.

SRS (Sounding Reference Signal): Understand the purpose of SRS in uplink channel sounding and its impact on beamforming and link adaptation.

PTRS (Phase Tracking Reference Signal): Explore the role of PTRS in phase noise compensation and its effect on maintaining signal integrity.

HARQ (Hybrid Automatic Repeat reQuest): Grasp the concepts of HARQ for error correction and how it enhances data reliability and throughput.

Additional Topics: Expand your knowledge with bonus content like RSRP, RSRQ, ARFCN, GSCN, PAPR, and more.

Course Curriculum

Chapter 1: Introduction

Lecture 1: Introduction

Lecture 2: 5G: What and Why?

Lecture 3: 3GPP, RAN Meetings and Technical Specifications

Lecture 4: 5G Physical Layer Design

Lecture 5: Course Content and Structure

Chapter 2: Essential modules of 5G physical layer

Lecture 1: CRC: Cyclic Redundancy Check

Lecture 2: Channel Coding in 5G

Lecture 3: Rate matching (puncturing, shortening and repetition)

Lecture 4: Polar rate matching

Lecture 5: LDPC rate matching

Lecture 6: LBRM: Limited Buffer Rate Matching

Lecture 7: RV: Redundancy Version and bit selection

Lecture 8: Cyclic Prefix

Lecture 9: Bit interleaving in LDPC rate matching

Lecture 10: m-sequence & PN sequence

Lecture 11: Zad-off chu sequence

Lecture 12: Scrambling

Lecture 13: Modulation techniques

Lecture 14: OFDM modulation

Lecture 15: Numerology

Lecture 16: Radio Frames, Slots, Subframes and Symbols

Lecture 17: Resource grid, Point A & Common Resource Blocks

Lecture 18: Bandwidth Part (BWP): Concept and Motivation

Lecture 19: Antennas and Beamforming

Lecture 20: Introduction to DMRS, Channel Estimation & Equalization

Chapter 3: SSBurst

Lecture 1: SSBurst: Introduction

Lecture 2: SSBurst: PSS

Lecture 3: SSBurst: SSS

Lecture 4: SSBurst: PBCH and PBCH DMRS

Lecture 5: SSBurst: Time and Frequency locations

Chapter 4: PDCCH

Lecture 1: PDCCH: Transmitter Design and DMRS

Lecture 2: PDCCH: DCIs

Lecture 3: PDCCH: Coreset

Lecture 4: PDCCH: Search Space

Lecture 5: PDCCH: Receiver and Blind Decoding

Chapter 5: PDSCH & PUSCH

Lecture 1: DMRS for PDSCH and PUSCH

Lecture 2: PDSCH/PUSCH: Physical layer processing

Lecture 3: PDSCH/PUSCH: Time and frequency domain resource allocation part 01

Lecture 4: PDSCH/PUSCH: Time and frequency domain resource allocation part 02

Lecture 5: PDSCH/PUSCH: MCS tables

Lecture 6: PDSCH/PUSCH: Transport Block(TB) size calculations

Lecture 7: PDSCH: MIMO

Lecture 8: PUSCH: DFT-s-OFDM | Transform Precoding

Lecture 9: PUSCH: MIMO, Codebook, Beamforming and more

Lecture 10: PUSCH: Non codebook based MIMO

Chapter 6: PRACH

Lecture 1: PRACH: What and Why?

Lecture 2: PRACH: Signal Generation and Mapping

Lecture 3: PRACH: Cyclic Shift, Restricted Sets, and Timing Offset

Lecture 4: PRACH: Long formats

Lecture 5: PRACH: Short formats

Lecture 6: PRACH: More on Resource Allocation

Lecture 7: PRACH: Receiver Processing

Chapter 7: PUCCH

Lecture 1: PUCCH: Introduction to Physical Uplink Control Channel

Lecture 2: PUCCH Format 0: Signal Generation and Resource Mapping

Lecture 3: PUCCH Format 0: UE Multiplexing and Receiver

Lecture 4: PUCCH Format 1: Signal Generation and Resource Mapping

Lecture 5: PUCCH Format 1: DMRS

Lecture 6: PUCCH Format 1: UE Multiplexing and Receiver

Lecture 7: PUCCH Format 2/3/4: Bit Processing, CSI Part 1 and Part 2

Lecture 8: PUCCH Format 2: DMRS

Lecture 9: PUCCH Format 2: Signal Generation, Receiver and More

Lecture 10: PUCCH Format 3/4: DMRS

Lecture 11: PUCCH Format 3: Signal Generation, Receiver and More

Lecture 12: PUCCH Format 4: Signal Generation, UE Multiplexing and Receiver

Chapter 8: CSI-RS

Lecture 1: CSI-RS: Channel State Information Reference Signal

Lecture 2: CSI-RS: CDM Concept

Lecture 3: CSI-RS: Sequence Generation and Mapping

Lecture 4: CSI-RS: Sequence Generation and Mapping with Example

Lecture 5: CSI-IM: CSI for Interference Measurement

Lecture 6: CSI-RS: CQI & RI

Lecture 7: CSI-RS: PMI

Chapter 9: SRS

Lecture 1: SRS: Introduction to Sounding Reference Signal

Lecture 2: SRS: Sequence Generation

Lecture 3: SRS: Resource Mapping

Lecture 4: SRS: Receiver Processing, TDD Reciprocity and Antenna Switching

Chapter 10: PTRS

Lecture 1: Phase Noise: What and Why?

Lecture 2: PTRS: Signal Generation and Mapping [PDSCH & PUSCH]

Lecture 3: PTRS: Signal Generation and Mapping [PUSCH Transform Precoding]

Lecture 4: PTRS: Receiver Design

Chapter 11: Additional topics

Lecture 1: NR operating bands, bandwidth, SDL and SUL

Lecture 2: RSRP: Reference Signal Received Power

Lecture 3: RSRQ: Reference Signal Received Quality

Lecture 4: Sampling Rates in 5G

Lecture 5: ARFCN: Absolute Radio-Frequency Channel Number

Lecture 6: GSCN: Global Synchronization Channel Number

Lecture 7: TDD slot structure

Lecture 8: Quick throughput calculation

Lecture 9: Calculating the exact throughput

Lecture 10: HARQ: Hybrid Automatic Repeat Request

Instructors

Sakshama Ghoslya
5G systems and R&D engineer

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4 stars: 1 votes

5 stars: 15 votes

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