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5G New Radio (NR) Introduction | Physical Layer Waveforms | 5G NR Modulation and Coding Scheme

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#5g #5G_New_radio #5GNR #5G_Physical_Layer_Waveforms 5G New Radio (NR) Introduction Video:- 🤍 5G New Radio Physical Layer Waveforms Video:- 🤍 5G NR Modulation and Coding Scheme - Modulation and Code Rate Video:- 🤍 How to Calculate Spectral Efficiency for 5G networks ? Video:- 🤍 What SS-RSRP Measurement in 5G, How mapping is done with reported value and actual Value? Video:- 🤍

5G NR (New Radio) Introduction by TELCOMA Global

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30.04.2018

Get all courses in Prime Membership Telecom (5G,4G,3G,2G) 🤍 This video covers 5G NR (New Radio) New interface, LTE evolution NR, New Interface (Radio), OFDM, MIMO. 5G New Radio (NR) is a global 5G standard for a new OFDM-based air interface designed to support the wide variation of 5G device-types, services and deployments. #5g #5gc #5gnr #5gcore #5ginterface #ofdm #mimo #telcomaglobal

5G NR(New Radio) in Depth: Numerology, mmWave, Massive MIMO, Beam Management, LDPC/Polar, SDAP

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27.10.2018

In this video going to give overview of 5G-NR where i have covered Multiple Numerology, mmWave, Massive MIMO, Beam Management, LDPC/Polar Coding, SDAP Layer in depth. Multiple Numerology: a) Numerology means 'Subcarrier Spacing’ In Simple term of 3GPP, we say 'subcarrier spacing type’ mmWave: Millimeter wave, which is also known as extremely high frequency (EHF) or very high frequency (VHF) by the International Telecommunications Union (ITU), can be used for high-speed wireless broadband communications. The exact frequency range for FR1 (sub 6 GHz) and FR2 (millimeter wave) are defined as below. Massive MIMO Massive MIMO - Why Massive MIMO? We use very high frequency (mm Wave) signal in 5G. High frequency mean that the size of single antenna will be very small and the aperture (the area for receiving energy) will be very small. To overcome this small aperture on receiver side at high frequency, we need to use a large number of transmission antenna. Beam Management The current status it seems that most of the deployment would be in very high frequency (millimeter wave) and this high frequency deployment would be one of the most important characteristics of 5G (NR). LDPC/Polar Coding In LTE, Tail Bit Convolution Coding and Turbo Coding are the major technology for channel coding, But in for 5G NR Low Density Parity Check (LDPC) coding is replacing the Turbo coding that was previously used for PDSCH coding and Polar Codes are replacing the Tail Biting Convolutional Codes (TBCC) used previously for PDCCH coding. SDAP Layer NR Radio Protocol Stack Architecture is almost same as LTE Radio Protocol Stack Architecture. If you are already familiar with LTE protocol stack or general concept of radio protocol stack, you would not need to spend too much time to understand this Layer. Thanks for watching my Channel ATS. I am working in wireless technology where what i learn same knowledge, technology and technical things shared with you in video format. Apart from Technology my involvement in creating online money and also learn related to some technical and social things which is belong to my Learning Habit, I do not want to keep these things confined to myself. I would be glad if my video would be a helpful for you. ➽ If any part of the contents of this channel is that your property (as a musician, label, video, image distributor or artist), please send me a personal message and your content will be removed within 24 hours. PLEASE DO NOT FLAG MY CHANNEL ! ☎ Please follow my channel on Social n/w. Facebook: 🤍 YouTube 🤍 Linkedin 🤍 Website = 🤍 Facebook Group: 🤍 ☎ CONTACT US: gautamanandsharma09🤍gmail.com #LTE #4G #5G #VOLTE #CSFB #X2HO #S1HO #IMS #DRX #Carrier aggregation #ATS #Tweet4technology #createonlinemoney #srvcc #throughput #wireless #cloud computing #3G #UMTS #2G #GSM #WCDMA #6G #Attach call flow #Handover #Anand TechnoSolution

5G NR Training Course Part 1

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27.09.2021

For part 2 - 🤍 This Video covers 5G NR Training Course Part 1, Explanation of 3GPP standards and NR timeline, NR technology, RAN, NR Standards, NSA, SA, 5G NR application, Massive IOT, Enhanced Mobile Broadband, Mission Critical Control, NR Timeline, Release 15, Release 16, NR Technology enables, Benefits of NR, 5G NR Spectrum, 5G Radio Frequency Spectrum, 5G NR Deployment Scenarios, NR Deployment modes, Performance Requirements, service requirement, Network Deployment strategy, Area for initial 5G deployment, Key technology and features, Overview of New Radio, Flexible Frame structure, Scalable Numerologies in NR, Flexible Frame Structure defined in NR, Hierarchical system bandwidth, New channel Coding, Mobile and state transition, Massive MIMO, Massive MIMO Development Scenario, Outdoor Deployment Scenario, indoor Deployment Scenario, Uplink enhancement for NR, Network slicing, Multi access edge computing, Massive MIMO in 5G NR, NR Physical Layer, Modulation schemes, waveform, frame structure, reference signal, DMRS, PTRS, SRS, CSI-RS, NR protocols Stack, Protocol for NR Architecture interface, Intra NR Mobility, Handover Type, Handover steps, Explanation of 3GPP standards and New Radio(NR) timeline Introduction to 5G NR technology enablers mmWave in 5G NR Explanation of NR deployment scenarios Massive MIMO in 5G NR 5G NR features and enhancements Explanation of NR spectrum scenarios Overview of NR physical layer and protocol stack Description of 5G NR reference signals and channels Description of Intra-NR mobility #5g #5gnr # 3gpp #newradio #mimo #nrphysical #nrspectrum #architecture #nrcell #5gran #5gc #5gcertification #5gchannels #telcomaglobal

5G NR SA Registration - 5G NR Call Flows

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19.10.2021

The Uniinfo team has come up with a new course on 5G NR Call Flows. Don’t wait up, watch the complete video to start learning. #5G #Uniinfo #TelecomCourse

5G NR Explained in 101 Seconds

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18.09.2017

🤍 What’s 5G NR? Our own Matt Branda shares details on the global standard for 5G. See how our engineering and inventions are helping bring the next phase of connectivity to life.

5G Explained: Introduction to 5G NR PHY

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09.07.2019

View the full playlist here: 🤍 Learn about use cases for 5G New Radio (NR), requirements associated with those use cases, some of the main differences between 5G NR and LTE, and deployment scenarios that have been envisioned by the 3GPP standardization body. You’ll also learn about frequency ranges for 5G NR: FR1 and FR2. In order to support new use cases, new requirements have been defined that enable fixed, mobile, wireless, and satellite access technology. These requirements include the ability to support many connected devices, a roundtrip latency of 1ms for URLLC cases, and increased bandwidth efficiency for all use cases ranging from low to high bitrates. Learn more about 5G Toolbox: 🤍 Get a free 5G Toolbox trial: 🤍 More about 5G wireless technology development: 🤍 Get a free product trial: 🤍 Learn more about MATLAB: 🤍 Learn more about Simulink: 🤍 See What's new in MATLAB and Simulink: 🤍 © 2019 The MathWorks, Inc. MATLAB and Simulink are registered trademarks of The MathWorks, Inc. See 🤍mathworks.com/trademarks for a list of additional trademarks. Other product or brand names may be trademarks or registered trademarks of their respective holders.

Zyxel 5G NR Indoor Router (NR5101) Unboxing & Initial Setup

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08.07.2021

5G is here! Empower your future with the Zyxel 5G NR Indoor Router (NR5101) now! This video covers on the NR5101 unboxing and initial setup. Explore Zyxel 5G products at 🤍 Find the help you need here: 🤍

Demystifying the 5G NR physical layer

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19.12.2018

In December 2017, 3GPP officially released its first set of Release 15 specifications describing the physical layer for the 5G New Radio (NR) technology. Final specifications on the 5G NR protocol stack are still ongoing and will be completed by March 2018 with Abstract Syntax Notification One (ASN.1). Further corrections and clarifications in the physical layer specifications can be expected during this timeframe as 3GPP members start implementation and discover potential areas of improvement. Initial 5G NR deployments will focus on a non-standalone (NSA) mode. In the next step, 3GPP will specify a standalone (SA) mode by mid-2018. This webinar provides an overview of the latest 5G NR physical layer specification, discusses the test challenges related to 5G and demonstrates practical test solutions. The webinar concludes with a look at the challenges involved in SA operation. Attendees will learn: • 5G NR physical layer details • How to test the 5G NR physical layer • Challenges of the 5G NR standalone (SA) mode More info: 🤍

5G is now – How 5G NR standalone (SA) mode challenges testing

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28.04.2020

5G is now – How 5G NR standalone (SA) mode challenges testing The standalone (SA) mode is one of the main deployment scenarios for 5G NR. The fundamental difference to the non-standalone (NSA) mode is that SA does not rely on an LTE anchor for the exchange of control information between the network and the device. Instead, all signaling information is sent and received via the established 5G link to the new 5G core network. The R&S CMX500 radio communication tester is ideal to perform 5G NR signaling measurements for SA mode. Watch the ‘5G is now’ video series to gain more insights into the 5G technology or read the 5G technology book online:  🤍

5G Call Flows (Session 1): How a 5G UE performs Initial Access

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For 5G performance and user experience, Samsung S21/S21 Ultra series is pretty good! In case you want to buy this phone, please check out following links. UK - 🤍 USA - 🤍 Canada - 🤍 Australia - 🤍 "As an Amazon Associate, I earn from qualifying purchases." Disclosure: #CommissionsEarned 5G Call Flows (Session 1): How a 5G UE/Mobile performs Initial Access One of the most complex area for beginners is to understand 5G Call Flows and Signaling procedures. 3GPP defines them but they are not easy to understand. So, in this video, I have explained the 5G Call Flows in a simplified manner and I have also included the contents of some of the important messages to show what actually goes on between UE/Mobile and the 5G network during the 5G Initial Access or Network Entry procedure! Moreover, I have highlighted some of the important 5G KPIs in the end that will help the audience to correlate the 5G Call Flow & Signaling procedure with the 5G KPI itself. This is also one of a popular 5G Interview topic as well and many questions are asked from this Signaling Procedure. You can also visit us on our blog site - 🤍 in order to read our articles in detail and know more about who we are and what we do. 0:00 Start 0:50 5G Network Access Overview 3:13 5G Access Call Flow 3:57 5G B1 Threshold 6:45 5G Measurement Report 7:45 SgNB Addition Setup 8:57 How UE Gets The 5G gNB Configuration Info? 12:00 5G RACH Procedure Like Us on Facebook - 🤍 5G NR Throughput Estimation - How much speed or data rate will I get on 5G? 🤍 VoLTE Capacity Planning and Dimensioning: A Dimensioning Cheat Sheet 🤍 5G Applications: How Low 5G Latency Is Achieved For Major 5G Applications! 🤍 5G Frame Structure 🤍 5G Frequency and Time Domain Structure 🤍 5G Bandwidth Efficiency - How 5G uses Frequency Bandwidth more efficiently 🤍

5G NR Numerology and Frame Structure - Part 1 - Mpirical Telecoms Training

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10.03.2020

In this video we discuss four main areas: 5G NR Numerology, Frames, Slots and Symbols, NR Time Unit and NR Cyclic Prefix. This video has been taken from our 5G Air Interface course, which focuses on 5G Phase 1. In so doing, both SA (Standalone) and NSA (Non Standalone) operation are discussed. The course details all aspects, from the physical layer channel and reference signals, through to scheduling and analysis of NR RRC signalling utilized to configure the NR air interface. Find out more about this course: 🤍 Search all of our 5G courses: 🤍

5G-NR Protocol Stack| RRC SDAP RLC MAC PHY | #Part-7

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29.07.2019

5G-NR Protocol Stack-Part-7 | RRC SDAP RLC MAC PHY | 5G-NR User plane contains Phy, MAC, RLC, and PDCP same as LTE and has introduced a new layer named as SDAP (Service Data Adaptation Protocol). On another side, the control plane of 5G-NR is identical to LTE, here MME equivalent node named as AMF (Access and Management Mobility Function). Thanks for watching my Channel ATS. I am working in wireless technology where what i learn same knowledge, technology and technical things shared with you in video format. Apart from Technology my involvement in creating online money and also learn related to some technical and social things which is belong to my Learning Habit, I do not want to keep these things confined to myself. I would be glad if my video would be a helpful for you. ➽ If any part of the contents of this channel is that your property (as a musician, label, video, image distributor or artist), please send me a personal message and your content will be removed within 24 hours. PLEASE DO NOT FLAG MY CHANNEL ! ☎ Please follow my channel on Social n/w. Facebook: 🤍 YouTube 🤍 Linkedin 🤍 Website = 🤍 Facebook Group: 🤍 ☎ CONTACT US: gautamanandsharma09🤍gmail.com #LTE #4G #5G #VOLTE #CSFB #X2HO #S1HO #IMS #DRX #Carrier aggregation #ATS #Tweet4technology #createonlinemoney #srvcc #throughput #wireless #cloud computing #3G #UMTS #2G #GSM #WCDMA #6G #Attach call flow #Handover

5G NR Webinar_Erik Dahlman

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12.09.2018

FOLLOW US on: LinkedIn: 🤍 Twitter: 🤍 Apis IP-Solutions Training is a leading technology training provider to the mobile telecom industry. Our head office is based in Sweden and we are operating globally. Go to our website: 🤍 for more information.

5G NR Throughput Estimation - How much speed or data rate will I get on 5G?

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25.06.2021

For 5G performance and user experience, Samsung S21/S21 Ultra series is pretty good! In case you want to buy this phone, please check out following links. UK - 🤍 USA - 🤍 Canada - 🤍 Australia - 🤍 "As an Amazon Associate, I earn from qualifying purchases." Disclosure: #CommissionsEarned 5G NR Throughput Estimation - How much speed or data rate will I get on 5G? This is one of the most popular question that how much will be my speed on 5G. So, this video answers all the calculations and estimations required for 5G throughput calculation in a simple manner. It also shows our 5G Throughput Calculation Tool (5GTCal) as well in order to provide a feel of the 5G throughput and its relation with different factors. You can also visit us on our blog site - 🤍 in order to read our articles in detail and know more about who we are and what we do. Like Us on Facebook - 🤍 5G Applications: How Low 5G Latency Is Achieved For Major 5G Applications! 🤍 5G Frame Structure 🤍 5G Frequency and Time Domain Structure 🤍 5G Bandwidth Efficiency - How 5G uses Frequency Bandwidth more efficiently 🤍

5G Frame Structure: Learn to Navigate the 5G Frame and Channels

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For 5G performance and user experience, Samsung S21/S21 Ultra series is pretty good! In case you want to buy this phone, please check out following links. UK - 🤍 USA - 🤍 Canada - 🤍 Australia - 🤍 "As an Amazon Associate, I earn from qualifying purchases." Disclosure: #CommissionsEarned 5G Frame Structure: Learn to Navigate the 5G Frame and Channels This explains all the 5G NR Physical Channels along with their basic functions. This is important to understand because these channels serve as a main building block in understanding all the other 5G topics. You can also visit us on our blog site - 🤍 in order to read our articles in detail and know more about who we are and what we do. Like Us on Facebook - 🤍 5G Applications: How Low 5G Latency Is Achieved For Major 5G Applications! 🤍 5G NR Throughput Estimation - How much speed or data rate will I get on 5G? 🤍 5G Frequency and Time Domain Structure 🤍 5G Bandwidth Efficiency - How 5G uses Frequency Bandwidth more efficiently 🤍

5G NR: Frame Structure (Multiple Numerology) #Part-1

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06.11.2018

5G NR Frame Structure (Multiple Numerology) Numerology - Subcarrier Spacing Comparing to LTE numberology (subcarrier spacing and symbol length), the most outstanding diffrence you can notice is thet NR support multiple different types of subcarrier spacing (in LTE there is only one type of subcarrier spacing, 15 Khz). The types NR numerology is summarized in 38.211 and I converted the table into illustration to give you intuitive understanding of these numerology. As you see here, each numerology is labled as a parameter(u, mu in Greek). The numerology (u = 0) represents 15 kHz which is same as LTE. And as you see in the second column the subcarrier spacing of other u is derived from (u=0) by scaling up in the power of 2. Radio Frame Structure As described above, in 5G/NR multiple numerology(waveform configuration like subframe spacing) are supported and the radio frame structure gets a little bit different depending on the type of the numerology. However, regardless of numerology the length of one radio frame and the length of one subfame is same. The length of a Radio Frame is always 10 ms and the length of a subframe is always 1 ms. Then what should get different to accomondate the physical property of the different numerology ? The anwer is to put different number of slots within one subfame. There is another varying parameter with numerology. It is the number of symbols within a slot. However, the number of symbols within a slot does not change with the numberology, it only changes with slot configuration type. For slot configuration 0, the number of symbols for a slot is always 14 and for slot configuration 1, the number of symbols for a slot is always 7. Now let's look into the details of radio frame structure for each numerology and slot configuration. Normal CP, Numerology = 0 In this configuration, a subframe has only one slot in it, it means a radio frame contains 10 slots in it. The number of OFDM symbols within a slot is 14. Normal CP, Numerology = 1 In this configuration, a subframe has 2 slots in it, it means a radio frame contains 20 slots in it. The number of OFDM symbols within a slot is 14. Normal CP, Numerology = 2 In this configuration, a subframe has 4 slots in it, it means a radio frame contains 40 slots in it. The number of OFDM symbols within a slot is 14. In this configuration, a subframe has 2 slots in it, it means a radio frame contains 20 slots in it. The number of OFDM symbols within a slot is 14. Thanks for watching my Channel ATS. I am working in wireless technology where what i learn same knowledge, technology and technical things shared with you in video format. Apart from Technology my involvement in creating online money and also learn related to some technical and social things which is belong to my Learning Habit, I do not want to keep these things confined to myself. I would be glad if my video would be a helpful for you. ➽ If any part of the contents of this channel is that your property (as a musician, label, video, image distributor or artist), please send me a personal message and your content will be removed within 24 hours. PLEASE DO NOT FLAG MY CHANNEL ! ☎ Please follow my channel on Social n/w. Facebook: 🤍 YouTube 🤍 Linkedin 🤍 Website = 🤍 Facebook Group: 🤍 ☎ CONTACT US: gautamanandsharma09🤍gmail.com #LTE #4G #5G #VOLTE #CSFB #X2HO #S1HO #IMS #DRX #Carrier aggregation #ATS #Tweet4technology #createonlinemoney #srvcc #throughput #wireless #cloud computing #3G #UMTS #2G #GSM #WCDMA #6G #Attach call flow #Handover #Anand TechnoSolution

5G NR Modulation and Coding Scheme - Modulation and Code Rate

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14.07.2020

Modulation and Coding Scheme (MCS) defines the numbers of useful bits which can carried by one symbol. In contrast with 5G or 4G, a symbol is defined as Resource Element (RE) and MCS defined as how many useful bits can be transmitted per Resource Element (RE) . 5G NR supports QPSK, 16 QAM, 64 QAM and 256 QAM modulation. In This Video, we will discuss about what all MCS is used in 5G. An article related to this video is available at following link. 🤍 Website: 🤍techplayon.com Twitter: 🤍 Slideshare: 🤍

5G SA Handover and 5G NR DAPS Handover - 5G NR Call Flows

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26.10.2021

The next part of Uniinfo's 5G NR Call Flows series is out now. In this video you will learn about 5G SA Handover and 5G NR DAPS Handover. #5GNR #TelecomTraning #Uniinfo

5G Explained: Signals for Channel Sounding in 5G NR

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30.01.2020

View the full playlist here: 🤍 This video discusses signals in 5G New Radio (NR) that enable channel sounding. Those signals include the channel state information reference signals (CSI-RS) on the downlink and sounding reference signals (SRS) on the uplink. Channel sounding provides channel information used for resource allocation and beamforming. This video explains the time and frequency structure of CSI-RS and introduces zero-power CSI-RS and their role in interference measurement. You’ll learn how CSI is fed back to the gNodeB via codebooks. Then, you’ll learn about the time and frequency structure of SRS and how suitable uplink beamforming is communicated to the UE as a result. Finally, this video walks through the difference between the role of CSI-RS and SRS and the role of DMRS. Get a free product Trial: 🤍 Learn more about MATLAB: 🤍 Learn more about Simulink: 🤍 See What's new in MATLAB and Simulink: 🤍 © 2019 The MathWorks, Inc. MATLAB and Simulink are registered trademarks of The MathWorks, Inc. See 🤍mathworks.com/trademarks for a list of additional trademarks. Other product or brand names may be trademarks or registered trademarks of their respective holders.

Zyxel 5G NR Outdoor Router (NR7101) Unboxing & Initial Setup & Mounting

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00:05:53
24.05.2021

5G is here! Empower your future with the Zyxel 5G NR Outdoor Router (NR7101) now! This video covers on the NR7101 unboxing, initial setup and mounting. Explore Zyxel 5G products at 🤍 Find the help you need here: 🤍

Bytes 01/07 : Frequency bands supported by 5G NR

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04.12.2021

This is a Course on 5G NEW RADIO – SPECTRUM RELATED ASPECTS consisting of byte size videos. The topics covered and video links are as below: 1. Frequency Bands supported by 5G NR 🤍 2. Channel Bandwidth Supported in 5G New Radio 🤍 3. Waveform and Modulation used in 5G NR 🤍 4. 5G NR Numerologies, Sub Carrier Spacing and Resource Block 🤍 5. Relation between 5G NR Numerologies, Supported Bandwidth, Frequency bands, cell size and its Usages Scenarios 🤍 6. Carrier Aggregation (CA) 🤍 7. Bandwidth part (BWP) 🤍

Demystifying 5G – 5G NR coexistence with LTE based on dynamic spectrum sharing (DSS)

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18.11.2019

5G New Radio (NR) supports the frequency range 1 (FR1) from 410 MHz to 7.125 GHz that is already intensively utilized by 4G LTE – in particular those frequency bands organized as paired spectrum (FDD). Traditionally, selected frequency bands would be cleared from LTE to be deployed by 5G NR. To avoid the high costs associated with this option, 5G NR added dynamic spectrum sharing (DSS) that enables to share the same frequency band with LTE. The video explores the technological fundamentals that enables DSS between 5G NR and LTE. The Demystifying 5G video series discusses main topics related to 5G including new technology components, procedures and testing challenges. More: 🤍

Demystifying 5G – How are slot formats defined in 5G NR?

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02.07.2019

Slot formats are a fundamentally new concept in 5G NR. They help to realize different downlink and uplink allocations, particularly in time division duplex (TDD) mode. Based on an example with 120 kHz subcarrier spacing, the video explains some unique characteristics compared to TD-LTE, such as the mismatch between required periodicity and subframe duration. The demystifying 5G video series discusses main topics related to 5G including new technology components, procedures and testing challenges. More: 🤍

5G Explained: Initial Acquisition Procedures in 5G NR

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09.03.2020

This video discusses initial acquisition procedures starting with cell search. By acquiring the primary and secondary synchronization signals (PSS and SSS), you can see the timing and the knowledge of the physical cell identity. The video then discusses broadcast channel (BCH) decoding, how the UE determines the synchronization signal block index with help of the associated demodulation reference signals (DMRS), and the role of the index in initial beamforming acquisition. The master information block, which is carried by the BCH, contains information about the system information block type 1 (SIB1), the next piece of information the UE looks for. The video then illustrates the random access procedure between the UE and the gNodeB, which enables UEs to get onto the network after receiving the SIB1. Additional Resources: - Download eBook: 5G New Radio Design with MATLAB: 🤍 - Get a free 5G Toolbox trial: 🤍 Get a free product trial: 🤍 Learn more about MATLAB: 🤍 Learn more about Simulink: 🤍 See what's new in MATLAB and Simulink: 🤍 © 2019 The MathWorks, Inc. MATLAB and Simulink are registered trademarks of The MathWorks, Inc. See 🤍mathworks.com/trademarks for a list of additional trademarks. Other product or brand names may be trademarks or registered trademarks of their respective holders.

5G NR (New Radio) Introduction

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26.09.2016

5G NR is a new OFDM-based air interface designed to meet an extreme variation of requirements, supporting diverse devices/services, deployments, and spectrum use. 5G NR will deliver new levels of capability and efficiency. For more information, visit us at 🤍qualcomm.com/5G.

Demystifying 5G - 5G NR device testing made simple with the R&S CMX500

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24.10.2019

5G network deployments are underway worldwide and mobile devices supporting 5G are already commercially available. Those devices have to be tested from an R&D perspective, for protocol conformance, RF conformance, for mobility. In addition, network operator specific test plans require to test the device under the specified network conditions. In this video we explore the test setup required to test 5G NR devices in non-standalone (NSA) mode using the R&S CMX500 mobile radio tester from Rohde & Schwarz. The Demystifying 5G video series discusses main topics related to 5G including new technology components, procedures and testing challenges. More information: 🤍

MAC Protocol Basic 5G NR

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19.11.2022

Part#4| 5G Frequency Scanner| 5G NR Cell Search Process in Stand alone mode | SSB GSCN Calculator |

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00:26:12
18.10.2021

Thanks for watching my Channel ATS. #5GNRcellsearch #5GNRCellSearchandSynchronization #5GFreqScanner Story Start from 5G band n2 which ARFCN range is nr-ARFCN range (386000, 398000), Q. In 1st Video, you have seen Preferred ARFCN was 386670 which was found after UE Scan. How UE scans band n2 and found ARFCN 386670 where SSB is present in freq domain location SSref? Answer:::: If UE supports Band n2 that means UE know ARFCN range, and From ARFCN, UE can calculate GSCN and its GSCN Range Here now we will try to co-relate to each other with all parameters like GSCN, SSref, ARFCN, Freq Scan, Synchronisation Raster, the meaning of M and N value. I have taken the example of 5G Band n2 5G ARFCN range is fixed =nr-ARFCN range (386000, 398000) GSCN range is SSref In This Table, These Parameters are related to each other. Total 140 Scan right so see last 3 scan 138th 139th and 140th Q. So now see the 3rd Last ie 138th Scan and find out the SSref location and ARFCN. 138th Scan GSCN is 4967 Scan: 138th When you first power on the device or your device got into out of coverage and try to detect/search a new cell, UE does not have any idea on which frequency it has to try camp on. So it may have to do some kind of blind search. For example, · UE is off. · Power On. · Scan all the frequency. Here two type of frequency scan: a) SLS ii) DBS SLS: Storage List Search: Its check and Scan those frequency which was stored in mobile before switch on. DBS: Deviated Band Search: If after SLS search UE didn’t find any cell then UE will start DBS Search where UE will scan all the frequency for whole band. For example, let's assume that your device support 5G Band n1, n2, n20. *#0011# or *#2263# The eNodeB around your UE may use any frequency channel from nr-arfcn range (422000, 434000) FDDBand-n1, nr-arfcn range (158200, 164200) for FDD Band n20 and nr-arfcn range (386000, 398000) for Band n2. There can be lot of possibilities of frequencies that eNB would use. Then how UE can detect/find the cell (NodeB) it would camp on? Step-1) UE tune to each and every channel that it supports and measure RSSI. (RSSI is simply a measurement of whatever energy/power it can measure. This measurement does not require any channel coding process. So, at this step, UE does not need to know anything about the network. At this step, UE does not try to decode PCPICH (in WCDMA) or Sync/Reference Signal (in nr-5G) to detect Physical Cell ID. It just measures the power of each channel.) As UE measure RSSI for each channel, it creates a list of each channel numbers with the measured RSSI. Step-2) Then UE go through the list from Step-1) and figure out all the channels which shows RSSI value greater than the threshold (this threshold is also up to UE/chipset implementation, not determined by 3GPP). Then the question would be "Any frequency with Passing RSSI value can be the one that UE can camp on?” The answer is "Not Necessarily". I am working in wireless technology where what I learn is the same knowledge, technology, and technical things shared with you in video format. Apart from Technology my involvement in creating online money and also learn related to some technical and social things which belong to my Learning Habit, I do not want to keep these things confined to myself. I would be glad if my video would be helpful for you. ➽ If any part of the contents of this channel is that your property (as a musician, label, video, image distributor, or artist), please send me a personal message and your content will be removed within 24 hours. PLEASE DO NOT FLAG MY CHANNEL! ☎ Please follow my channel on Social n/w. Facebook: 🤍 YouTube 🤍 Linkedin 🤍 Website = 🤍 Facebook Group: 🤍 ☎ CONTACT US: gautamanandsharma09🤍gmail.com #LTE #4G #5G #VOLTE #CSFB #X2HO #S1HO #IMS #DRX #Carrier aggregation #ATS #Tweet4technology #srvcc #throughput #wireless #cloud computing #3G #UMTS #2G #GSM #WCDMA #6G #Attach call flow #Handover #AnandTechnoSolutions #TechnoSolutions #Technews #Unboxing #Technology #AnandTechnicalSupport

5G New Radio Air Interface

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00:47:12
29.10.2020

5G radio is called New Radio. It has enhanced radio capabilities in terms of speed, latency, connection density, very high speed mobility support etc. The Uses Scenarios supported by New Radio are broadly eMBB..enhanced mobile broadband, uRLLC.. ultra reliable low latency services, mMTC..massive mobile type communication. In order to achieve these, 5G New Radio will support wide range of frequencies..from sub 1 GHz to 100GHz (mm wave), small cell, numerology, bandwidth part, carrier aggregation etc.

Qualcomm Wireless Academy: 5G New Radio Capabilities

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00:04:55
16.08.2022

5G New Radio (NR) technology is enhancing the capabilities of 5G across a range of metrics. To better understand how new radio technology is improving 5G, Nakul Navarange — 5G networks staff systems engineer at Qualcomm — dives into the capabilities of 5G NR in this video from the Qualcomm Wireless Academy. 5G NR was designed not just for linear enhancements in connectivity, but for advancements in magnitude. To illustrate this, Nakul Navarange breaks down some of the key performance indicators for 5G NR. The first of these performance indicators is fiber-like speeds, allowing your wireless technology to reach multi-Gbps peak rates for both downloads and uploads. The second metric is very low latency, as low as 1 ms for interactive content. The third indicator is uniform experience. Everyone can have reliable performance, even in challenging environments, with 5G NR. This democratization of connectivity is made possible through the expansion and improvement of mobile networks with 5G NR. The fourth and final indicator is low cost-per-bit. The cost-per-bit with 5G mobile networks is significantly lower than current networks, allowing 5G to better support cost-effective data plans. Overall, with 5G NR, users get better performance at lower costs compared to legacy networks and technologies. For users, this means a 10x decrease in end-to-end latency, a 100x increase in traffic capacity, a 100x improvement in network efficiency, and so much more. Watch "Why 5G is the Next Evolution of Wireless Technology & Why We Need 5G": 🤍 Learn more about 5G NR technology: 🤍 Check out the Qualcomm Wireless Academy: 🤍 Explore more 5G technologies from Qualcomm: 🤍 Watch all 5G videos from Qualcomm: 🤍

Qualcomm 5G Wireless Academy: 5G NR Network Slicing

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00:02:00
12.11.2021

The Qualcomm Wireless Academy is offering a new educational series that delves into 5G. Our course on 5G NR Network Slicing will cover the essential architecture that allows for the deployment of multiple virtual networks on the same infrastructure. Network Slicing can create isolated end-to-end networks, or “slices,'' designed to meet the specific requirements of applications. Network Slicing provides a flexible and secure solution that’s endlessly scalable to meet the ever growing needs of your customers, such as enhanced mobile broadband, machine-type communications (MTC), and ultra low-latency applications. Our Qualcomm Wireless Academy course will cover Network Slicing from its foundational concepts, like software defined networks and network function virtualization, all the way through to how to optimize your network deployments to best suit any 5G use case. Qualcomm Wireless Academy will also explain the concepts, architecture roles, operation, revenue potential, deployment considerations, and practical use cases that operators need to know to open new business opportunities using 5G NR Network Slicing. New concepts will be introduced side-by-side with principles, key functionalities, and applications to allow for a deeper understanding of 5G NR Network Slicing. Completing this course will also enable you to separate the full potential of 5G NR Network Slicing from other 5G characteristics like mobile edge computing, virtual RAN, bandwidth part, and ultra-reliable low latency communication. Using a practical approach-based methodology and 3GPP standards, the course will provide you with the knowledge needed to deploy 5G Network Slicing in different scenarios, and even identify techniques for advanced use of 5G Network Slicing. Request our course on Network Slicing: 🤍 Learn more about 5G: 🤍

Advanced: 5G NR RRC Inactive State

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00:22:14
05.07.2020

This video / presentation looks at how RRC states have changed from 3G to 4G and not to 5G NR. Why was the new RRC_INACTIVE state introduced; how will it reduce the latency which will help URLLC; what are the different NAS states in 4G EPC and 5G Core and how do they map to RRC and UE states. Finally we look at some basic signalling example to understand the RRC Resume and Inactive state. All our #3G4G5G slides and videos are available at: Videos: 🤍 Slides: 🤍 5G Page: 🤍 Free Training Videos: 🤍

How we can Compare 5G NR with LTE ?

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00:04:34
25.01.2020

In this video we are going to discuss , How we can Compare 5G NR with LTE ? Do Like it, Share and Subscribe the Channel if you haven't yet. LTE Videos : 1. LTE Architecture : 🤍 2. LTE Architecture In Detail : 🤍 3. LTE Frame Structure : 🤍 4. LTE UE Protocol Stack : 🤍 5. Stages of LTE system development ? : 🤍 6. LTE Interview Questions : 🤍 7. Telecom Industry Opportunity : 🤍 8. LTE Release wise Evolution to 5G : 🤍 9. LTE Initial Access Procedure : 🤍 10. What is 3GPP ? : 🤍 11. Difference Between LTE Protocol Stack of UE , ENB and MME : 🤍 12. Learn LTE from Sharetechnote Site : 🤍 13. How to use 3GPP Site for learning LTE/5G ? : 🤍 14. LTE 3GPP Specifications : 🤍 15. LTE Protocol Testing Interview Questions : 🤍 16. LTE RRC layer : 🤍 17. LTE NAS Layer : 🤍 18. LTE Field Testing Tools for UE Log Analysis : 🤍 19. LTE LAB Testing SIMULATOR TOOLS : 🤍 20. LTE RRC Layer Messages : 🤍 21. LTE Signalling Radio Bearers : 🤍 22. LTE System Information ( SIB , MIB ) : 🤍 23. LTE NAS Layer Messages : 🤍 24. LTE Channels & Their Mapping : 🤍 25. LTE Carrier Aggregation (CA) : 🤍 26. LTE FGI (Feature Group Indicators) : 🤍 27. LTE X2 & S1 Interfaces : 🤍 28. LTE SRVCC (Single Radio Voice Call Continuity) : 🤍 29. LTE CSFB (Circuit Switched Fallback) : 🤍 30. 3GPP Specifications Formation Flow : 🤍 31. LTE RRC Connection 3 Way Handshake : 🤍 32. LTE Control / User Plane Protocol stack : 🤍 33. LTE Random Access Procedure : 🤍 34. LTE MAC/RLC Layer : 🤍 35. LTE Cell Selection Procedure : 🤍 36. LTE Registration Call Flow : 🤍 37. LTE Physical Cell Identity (PCI) : 🤍 38. LTE Mobility Scenarios : 🤍 39. AT Commands for Modem Testing (2G,3G,4G) : 🤍 40. LTE MIB (Master Information Block) in Detail : 🤍 41. LTE SIB1 (System Information Block) : 🤍 42. LTE SIB2 (System Information Block) : 🤍 43: LTE SIB3 (System Information Block) : 🤍 44. Qualcomm Job for LTE Software Application Testing : 🤍 45. LTE Development Opening in Altran Gurgaon : 🤍 46. LTE UE PLMN Selection : 🤍 47. LTE Interview Questions Part 2 : 🤍 48. LTE Interview Questions Part 3 : 🤍 #Compare #5GNR #LTE

5G NR Control Plane Protocol Architecture || 5G Radio Protocols || 5G NAS,RRC,PDCP,TLC,MAC,PHY Layer

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00:08:40
26.05.2021

#ControlPlaneProtocolArchitecture #5GRadioProtocols #5GNAS #RRC #PDCP #RLC #MAC #PHYLayer #5GProtocols #5G #NR #5gTutorial #5gTraining #5gProtocolsAndFunctions #5gControlPlane #5gNRProtocols

VoNR Call Flow and 5G NSA Secondary Node Addition - 5G NR Call Flows

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00:13:11
22.10.2021

The next video in Uniinfo’s 5G NR Call Flow course is out now. In this video, you will learn about Voice Over NR (VONR) Call Flow and 5G NSA Secondary Node Addition. #Uniinfo #5GTechnology #telecomlearning

5G Explained: Uplink Control Information in 5G NR

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00:06:37
09.09.2019

View the full playlist here: 🤍 Learn about uplink control information, or UCI, in 5G New Radio. This video walks through the different types of messages, including HARQ, CQI, and scheduling requests. It discusses how they are encoded, modulated, and then mapped to the 5G New Radio slot via the PUCCH or physical uplink control channel. Finally, you’ll learn how control information is used in 5G NR procedures. Download eBook: 5G New Radio Design with MATLAB: 🤍 Get a free 5G Toolbox trial: 🤍 Get a free product Trial: 🤍 Learn more about MATLAB: 🤍 Learn more about Simulink: 🤍 See What's new in MATLAB and Simulink: 🤍 © 2019 The MathWorks, Inc. MATLAB and Simulink are registered trademarks of The MathWorks, Inc. See 🤍mathworks.com/trademarks for a list of additional trademarks. Other product or brand names may be trademarks or registered trademarks of their respective holders.

5G Explained: Downlink Data in 5G NR

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00:12:58
11.07.2019

View the full playlist here: 🤍 Learn about downlink data transmission in 5G New Radio (NR). This video looks at the downlink shared channel chain, which includes LDPC coding, the physical downlink shared channel chain, layer mapping, how resource elements are allocated for PDSCH transmission, and the different types of PDSCH mapping. A special PDSCH mapping type is used for mini-slots or partially allocated slots, a feature that allows for reduced latency in 5G NR transmission. The video also walks through MIMO precoding, which, although not specified on the downlink, is a critical component of the downlink chain. The video includes an example demonstration that walks through PDSCH resource allocation options and mapping in 5G ToolboxTM. The video concludes with a quick word on transport block sizes. Learn more about 5G Toolbox: 🤍 Get a free 5G Toolbox trial: 🤍 View 5G NR downlink channel processing examples: 🤍 Get a free product trial: 🤍 Learn more about MATLAB: 🤍 Learn more about Simulink: 🤍 See what's new in MATLAB and Simulink: 🤍 © 2019 The MathWorks, Inc. MATLAB and Simulink are registered trademarks of The MathWorks, Inc. See 🤍mathworks.com/trademarks for a list of additional trademarks. Other product or brand names may be trademarks or registered trademarks of their respective holders.

5G Explained: CORESET and PDCCH in 5G NR

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00:11:10
12.07.2019

View the full playlist here: 🤍 Explore the concept of control resource sets (CORESETs) and how it applies to downlink control information. The video looks at the time and frequency structure of a CORESET, and its role in downlink control information as the location of the physical downlink control channel (PDCCH). It illustrates the impact of CORESET and PDCCH parameters on the OFDM grid using an interactive example, and it discusses interleaved and non-interleaved mapping. Finally, you will learn how search spaces further reduce the set of blind searches needed for the UE to correctly detect and decode control information. Learn more about 5G Toolbox: 🤍 Get a free 5G Toolbox trial: 🤍 Get a free product trial: 🤍 Learn more about MATLAB: 🤍 Learn more about Simulink: 🤍 See what's new in MATLAB and Simulink: 🤍 © 2019 The MathWorks, Inc. MATLAB and Simulink are registered trademarks of The MathWorks, Inc. See 🤍mathworks.com/trademarks for a list of additional trademarks. Other product or brand names may be trademarks or registered trademarks of their respective holders.

Ericsson Radio System shifts to next gear: World's first 5G NR radio

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00:01:50
31.08.2016

🤍 Ericsson is introducing the world’s first 5G NR-capable radio, called Ericsson AIR 6468. It features 64 transmit and 64 receive antennas enabling it to support our 5G plug-ins for both Massive MIMO and Multi-User MIMO.

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