Wednesday, 1 September 2021

Qualcomm Explains 5G Millimeter Wave (mmWave) Future & Integrated Access and Backhaul (IAB)

We have covered various topics in our blog posts on millimeter wave spectrum and even going beyond 52.6 GHz in FR2. A Qualcomm webinar from back in January expands on many of the topics that I looked superficially in various posts (links at the bottom).

The following is edited from the Qualcomm blog post:

5G NR in unlicensed spectrum (NR-U) was standardized in Release 16 and it is a key enabler for the 5G expansion to new use cases and verticals, providing expanded spectrum access to mobile operators, service providers, and industry players. At the same time, we are starting to push the mmWave boundary to even higher bands toward the sub-Terahertz (i.e., >100 GHz) range. Expected in Release 17, 5G NR will support spectrum bands up to 71 GHz, leveraging the 5G NR Release 15 scalable numerology and flexible framework. This opens up 5G to operate in the globally unlicensed 60 GHz band, which can fuel a broad range of new applications and deployments.

One daunting challenge that mobile operators will face when expanding 5G mmWave network coverage is the cost of deploying additional base stations for mmWave, which usually requires new fiber optics backhaul installations. Release 16-defined IAB allows a base station to not just provide wireless access for its user devices (e.g., smartphones) but also the ability to backhaul wirelessly via neighboring base stations using the same mmWave spectrum. IAB opens the door to more flexible densification strategies, allowing mobile operators to quickly add new base stations to their networks before having to install new fiber to increase backhaul capacity. 

Release 16 established foundational IAB capabilities, such as dynamic topology adaptation for load balancing and blockage mitigation, and Release 17+ will further enhance IAB by bringing new features like full-duplex operation, topology redundancy, and ML-based network management.

Beyond IAB, there is a rich roadmap of other new features that can further improve 5G mmWave system performance and efficiency. The webinar embedded below is presented by Ozge Koymen, Senior Director, Technology, Qualcomm Technologies, Inc. It covers the following topics:

  • Qualcomm's vision for 5G mmWave and the new opportunities it poises to bring for the broader ecosystem
  • mmWave capabilities and enhancements coming in Release -16 and beyond
  • Qualcomm’s role in mobilizing and democratizing 5G mmWave to usher in new experiences
  • Latest update on the global commercial rollout of 5G mmWave networks and devices

Slides of the presentation are available here.

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Tuesday, 24 August 2021

3GPP's 5G-Advanced Technology Evolution from a Network Perspective Whitepaper


China Mobile, along with a bunch of other organizations including China Unicom, China Telecom, CAICT, Huawei, Nokia, Ericsson, etc., produced a white paper on what technology evolutions will we see as part of 5G-Advanced. This comes not so long after the 3GPP 5G-Advanced Workshop which a blogged about here.

The abstract of the whitepaper says:

The commercialization of 5G networks is accelerating globally. From the perspective of industry development drivers, 5G communications are considered the key to personal consumption experience upgrades and digital industrial transformation. Major economies around the world require 5G to be an essential part of long-term industrial development. 5G will enter thousands of industries in terms of business, and technically, 5G needs to integrate DOICT (DT - Data Technology, OT - Operational Technology, IT - Information Technology and CT - Communication Technology) and other technologies further. Therefore, this white paper proposes that continuous research on the follow-up evolution of 5G networks—5G-Advanced is required, and full consideration of architecture evolution and function enhancement is needed.

This white paper first analyzes the network evolution architecture of 5G-Advanced and expounds on the technical development direction of 5G-Advanced from the three characteristics of Artificial Intelligence, Convergence, and Enablement. Artificial Intelligence represents network AI, including full use of machine learning, digital twins, recognition and intention network, which can enhance the capabilities of network's intelligent operation and maintenance. Convergence includes 5G and industry network convergence, home network convergence and space-air-ground network convergence, in order to realize the integration development. Enablement provides for the enhancement of 5G interactive communication and deterministic communication capabilities. It enhances existing technologies such as network slicing and positioning to better help the digital transformation of the industry.

The paper can be downloaded from China Mobile's website here or from Huawei's website here. A video of the paper launch is embedded below:

Nokia's Antti Toskala wrote a blog piece providing the first real glimpse of 5G-Advanced, here.

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Tuesday, 17 August 2021

'5G RAN Release 18 for Industry Verticals' Webinar Highlights

5G PPP held a virtual workshop on RAN Release 18 for Industry Verticals on June 23rd, 2021. The workshop was organised by 3GPP Market Representation Partners (MRPs): 5G-IA, 5GAA, 5G-ACIA and PSCE.

It features a fireside chat with new 3GPP RAN TSG Chair, Wanshi Chen. In addition to this, the workshop then provides a deep dive on new requirements from verticals, spanning automotive (5GAA), manufacturing (5G-ACIA), critical communications and public safety (TCCA with PSCE), broadcasting and media (5G-MAG), satellite (ESOA), rail (UIC), maritime (IALA) and energy (EUTC).

5G-SOLUTIONS came on board as a 5G PPP project supporting verticals with the 5G-EVE and 5G-VINNI 5G network infrastructures alongside RAN specialists doing standardisation work applicable to multiple verticals.

The video of the webinar is embedded below. In addition, you will find timings of when a particular talk starts and a link to the slides (if shared/available)

Timings:

  • 0:04:21 Fireside chat with Wanshi Chen, Qualcomm and 3GPP RAN TSG Chairman
  • 0:21:00 NTN Requirements in Rel-18 by Nicolas Chuberre, Thales Alenia Space (slides)
  • 0:31:40 Multiple verticals: Andrea Di Giglio, 5G SOLUTIONS (slides)
  • 0:36:35 Media and Broadcasting: David Vargas, BBC and 5G-MAG Chair of CD-T WG, Proposals for 3GPP RAN Rel-18 (slides)
  • 0:43:19 Maritime: Hyounhee Koo, Synctechno and IALA, Maritime Requirements on 3GPP Rel 18 RAN Studies/Works Priorities (slides)
  • 0:46:12 Rail: Ingo Wendler, UIC, NR Narrowband Channel Bandwidth - Railway Use Case (slides)
  • 0:50:02 Utilities: Julian Stafford, EUTC 3GPP RAN Rel-18 Requirements (slides)
  • 0:58:35 Utilities: Erik Guttman, Samsung 5G Smart Energy Infrastructure (slides)
  • 1:05:45 Multiple verticals: Mathew Webb, Huawei and 3GPP RAN 3GPP Release 17 and Release 18 support for industry verticals (slides)
  • 1:15:19 Public Safety/Critical Communications: Tero Pesonen, TCCA Chair, joint presentation with PSCE, 3GPP MRP Mini Workshop: 3GPP Rel 18. Requirements from industry verticals (slides)
  • 1:20:15 Multiple verticals: Thierry Berisot, Novamint and 3GPP RAN, Industry Verticals and Rel-18 RAN (slides)
  • 1:32:56 Manufacturing/IIoT: Michael Bahr, Siemens and 5G-ACIA WG 1Chair and An Xueli, Huawei and 5G-ACIA WG1 Vice Chair 3GPP RAN Rel-18 for Industry Verticals (slides)
  • 1:42:20 Automotive: 5GAA Maxime Flament, CTO Input to RAN 18 Rel-18 Workshop (slides)
  • 1:53:35 Interactive Session 2
  • 2:04:36 Passive IoT for 5G-Advanced, Mathew Webb, Huawei and 3GPP RAN (slides)
  • 2:14:59 Template A for Interactive Session 2
  • 2:20:40 Critical Communications / Public Safety requirements for Release 18 
  • 2:26:00 Closing Remarks

Official page here.

The slide above nicely summarizes 3GPP RAN Verticals up to Release 17.

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Monday, 9 August 2021

Qualcomm Demoes Sub-band Half Duplex (SBHD)


Qualcomm has been busy promoting its advanced 5G solutions these last few months in the run up to Mobile World Congress (MWC). You can find a detailed write-up on their website here as well as a feature which they did with RCR wireless here.

One of the innovations that caught my attention was Sub-band Half-Duplex (SBHD). In the first glance it looks like the Enhanced Interference Mitigation & Traffic Adaptation (eIMTA) solution we discussed long back here.

Their article talks about how their 5G multi-cell over-the-air (OTA) test network can now support subband half-duplex, allowing for more flexible service multiplexing as well as improved latency and coverage. 

While you can get an idea of what SBHD is from the diagram above, here is a video explaining it further.

Let us know what do you think about how important will this feature be in future 5G networks.

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Monday, 2 August 2021

3GPP's 5G-Advanced Workshop Summary

From 28 June to 02 July 2 2021, 3GPP held its first internal workshop on the radio specific content of Release 18, reviewing over 500 company and partner organization’s presentations, to identify topics for the immediate and longer-term commercial needs for:

  • eMBB (evolved Mobile BroadBand);
  • Non-eMBB evolution;
  • Cross-functionalities for both eMBB and non-eMBB driven evolution.

All the documents related to the workshop can be found on the 3GPP website here. The workshop details is available in RWS-210002 while the summary of the RAN Rel-18 workshop is available in RWS-210659.

The following is from 3GPP's news article on 5G-Advanced workshop:

Wanshi Chen, the TSG RAN Chair, summarized that the example areas under each topic serve as a starting point, each subject to further update or removal during the email discussion period - with additional topics still possible, up to the September e-meeting. That RAN#93-e meeting (13-17 September 2021) will see progress on ‘high-level descriptions’ of the objectives for each topic.

List of Topics:

1. Evolution for downlink MIMO, with the following example areas:
  • Further enhancements for CSI (e.g., mobility, overhead, etc.)
  • Evolved handling of multi-TRP (Transmission Reception Points) and multi-beam
  • CPE(customer premises equipment)-specific considerations
2. Uplink enhancements, with the following example areas:
  • >4 Tx operation
  • Enhanced multi-panel/multi-TRP uplink operation
  • Frequency-selective precoding
  • Further coverage enhancements
3. Mobility enhancements, with the following example areas:
  • Layer 1/layer 2 based inter cell mobility
  • DAPS (Dual Active Protocol Stack)/CHO (Conditional HandOver) related improvements
  • FR2 (frequency range 2)-specific enhancements
4. Additional topological improvements (IAB and smart repeaters), with the following example areas:
  • Mobile IAB (Integrated Access Backhaul)/Vehicle mounted relay (VMR)
  • Smart repeater with side control information
5. Enhancements for XR (eXtended Reality), with the following example areas:
  • KPIs/QoS, application awareness operation, and aspects related to power consumption, coverage, capacity, and mobility (Note: only power consumption/coverage/mobility aspects specific to XR)
6. Sidelink enhancements (excluding positioning), with the following example areas:
  • SL enhancements (e.g., unlicensed, power saving enhancements, efficiency enhancements, etc.)
  • SL relay enhancements
  • Co-existence of LTE V2X & NR V2X
7. RedCap evolution (excluding positioning), with the following example areas:
  • New use cases and new UE bandwidths (5MHz?)
  • Power saving enhancements
8. NTN (Non-Terrestrial Networks) evolution
  • Including both NR & IoT (Internet of Things) aspects
9. Evolution for broadcast and multicast services
  • Including both LTE based 5G broadcast and NR MBS (Multicast Broadcast Services)
10. Expanded and improved Positioning, with the following example areas:
  • Sidelink positioning/ranging
  • Improved accuracy, integrity, and power efficiency
  • RedCap positioning
11. Evolution of duplex operation, with the following example areas:
  • Deployment scenarios, including duplex mode (TDD only?)
  • Interference management
12. AI (Artificial Intelligence)/ML (Machine Learning), with the following example areas:
  • Air interface (e.g., Use cases to focus, KPIs and Evaluation methodology, network and UE involvement, etc.)
  • NG-RAN
13. Network energy savings, with the following example areas:
  • KPIs and evaluation methodology, focus areas and potential solutions
14. Additional RAN1/2/3 candidate topics, Set 1:
  • UE power savings
  • Enhancing and extending the support beyond 52.6GHz
  • CA (Carrier Aggregation)/DC (Dual-Connectivity) enhancements (e.g., MR-MC (Multi-Radio/Multi-Connectivity), etc.)
  • Flexible spectrum integration
  • RIS (Reconfigurable Intelligent Surfaces)
  • Others (RAN1-led)
15. Additional RAN1/2/3 candidate topics, Set 2:
  • UAV (Unmanned Aerial Vehicle)
  • IIoT (Industrial Internet of Things)/URLLC (Ultra-Reliable Low-Latency Communication)
  • <5MHz in dedicated spectrum
  • Other IoT enhancements/types
  • HAPS (High Altitude Platform System)
  • Network coding
16. Additional RAN1/2/3 candidate topics, Set 3:
  • Inter-gNB coordination, with the following example areas:
  • Inter-gNB/gNB-DU multi-carrier operation
  • Inter-gNB/gNB-DU multi-TRP operation
  • Enhancement for resiliency of gNB-CU
  • Network slicing enhancements
  • MUSIM (Multiple Universal Subscriber Identity Modules)
  • UE aggregation
  • Security enhancements
  • SON (Self-Organizing Networks)/MDT (Minimization of Drive Test)
  • Others (RAN2/3-led)
17. Potential RAN4 enhancements 

The latest timeline for Release-17/18 is as shown in the diagram above. 

The official 3GPP Release-18 page is here. This link is better to navigate through features in different 3GPP releases.

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Tuesday, 27 July 2021

Introduction to 5G Reduced Capability (RedCap) Devices

Back in 2019, we wrote about Release-17 study item called NR-Lite (a.k.a. NR-Light). After the study started, it was renamed as RedCap or Reduced Capability.

We have now made a video tutorial on RedCap to not only explain what it is but also discuss some of the enhancements being discussed for 3GPP Release-18 (5G-Advanced). For anyone wanting to find out the differences between the baseline 5G devices with RedCap, without wanting to go too much in detail, can see the Tweet image for comparison.

The video and the slides of the tutorial are embedded below:

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Thursday, 22 July 2021

AT&T Cybersecurity Experts Provide 5G Security Overview

The National Governors Association (NGA) in the USA is the voice of the leaders of 55 states, territories, and commonwealths. On May 24th, the Resource Center for State Cybersecurity featured a panel of experts from AT&T for a conversation on understanding the 5G ecosystem, security risks, supply chain resilience and the challenges and opportunities that exist around deployment.

The talk highlighted top 5G security areas of concern. The top three being:

  • Increased attack surface due to massive increase in connectivity
  • Greater number & variety of devices accessing the network
  • Complexity of extending security policy to new types of non-traditional and IoT devices


Some of the Security Advantages with 5G are highlighted as follows:

  • Software Defined Networking/Virtualization
  • Stronger 3GPP encryption for over-the-air encryption
  • Subscriber Identity Privacy
  • Roaming or network-to-network protection
  • Network Slicing

The slides of the talk is available here and the video is as follows:

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Tuesday, 13 July 2021

The History of Camera Phones


Last year, Professor Nigel Linge Director of the Computer Science, Networking and Mathematics Directorate and Professor of Telecommunications at the University of Salford, Manchester presented a talk at IET, titled "Nobody saw it coming - the rise and rise of the camera-phone ". 

The following is the summary of the talk from the flyer (can't find link):

When you buy a new smartphone, what features do you look for? It is probably a safe bet that its ability to make and receive phone calls is well down the list, if on it at all! Yet the quality of the camera is probably near the top. How ironic that a technology that began life as a mobile telephone is now marketed and sold based on everything else it can do. This webinar will examine the extraordinary rise and rise of the camera-phone, from the Sharp J-SHO4 in 2000, to pushing the megapixel count up from one in 2004 to five in 2006, and then eight in 2008 to today's one-hundred plus megapixel, 4K HD video recording, multi-camera, offerings. From the first selfies, to transforming social media and turning everyone into an on-the-spot news reporter, the camera-phone has had a phenomenal impact on society in its first twenty years.

I definitely recommend watching the video, it's available on the IET page here.

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Wednesday, 7 July 2021

Different Types of RAN Architectures - Distributed, Centralized & Cloud


I come across a question relating to the different type of RAN architectures once per month on an average. Even though we have covered the topic as part of some or the other tutorial, we decided to do a dedicated tutorial on this.

The video and slides are embedded below

As always, feedback and comments welcome.

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Wednesday, 30 June 2021

Open RAN Terminology and Players


When we made our little Open RAN explainer, couple of years back, we never imagined this day when so many people in the industry will be talking about Open RAN. I have lost track of the virtual events taking place and Open RAN whitepapers that have been made available just in the last month.

One of the whitepapers just released was from NTT Docomo, just in time for MWC 2021. You can see the link in the Tweet

Even after so much information being available, many people still have basic questions about Open RAN and O-RAN. I helped make an Open RAN explainer series and blogged about it here. Just last week, I blogged about the O-RAN explainer series that I am currently working on, here.

There were some other topics that I couldn't cover elsewhere so made some short videos on them for the 3G4G YouTube channel. The first video/presentation explains Open RAN terminology that different people, companies and organizations use. It starts with open interfaces and then looks at radio hardware disaggregation and compute disaggregation. Moving from 2G/3G/4G to 5G, it also explains the Open RAN approach to a decomposed architecture with RAN functional splits.

If you look at the Telecom Infra Project (TIP) OpenRAN group or O-RAN Alliance, the organizations driving the Open RAN vision and mission, you will notice many new small RAN players are joining one or both of them. In addition, you hear about other Open RAN consortiums that again include small innovative vendors that may not be very well known. 

The second video is an opinion piece looking at what is driving these companies to invest in Open RAN and what can they expect as return in future.

As always, all 3G4G videos' slides are available on our SlideShare channel.

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