Showing posts with label Release 17. Show all posts
Showing posts with label Release 17. Show all posts

Monday 16 December 2019

5G Integrated Access and Backhaul (IAB) Enhancements in Rel-17


It's been a while since I last wrote about IAB on this blog here. At that time 3GPP Release-16 was being discussed. Since then things have moved on. While Release-16 is being prepared for final release soon, Release-17 study and work items have just been agreed upon.

IAB is included as part of Rel-16 but there isn't a comprehensive document or presentation easily available to details all that it will contain. Similarly the enhancements for Release-17 are available only superficially. Qualcomm is well known for making some really excellent presentations available on 5G. One of their presentations from January (here) has some details on IAB (pg. 32 - 35). There was also an excellent presentation by Navid Abedini, Qualcomm from IEEE Sarnoff Symposium, 2019 which is embedded at the end.


In a 3GPP RAN#84 discussion document RP-191181, Samsung has provided a comprehensive summary of what is being done as part of Rel-16 and what did not make in that:
  • Rel-16 IAB aims at basic operations
    • Architecture and protocol design
    • IAB integration procedure 
    • Routing, BAP and BH configuration
    • CP and UP data transmission  via IAB
    • Topology support: 
      • Spanning Tree (ST) and Directed acyclic graph (DAG) 
      • Intra-Donor adaptation is prioritized
  • The following cannot  be supported in Rel-16
    • Mobile IAB
    • Topology support: Mesh
  • Some functionalities in Rel-16 may not be completed due to time constrains e.g. 
    • Topology adaptation between IAB donors
    • Mechanisms for efficient control signaling transmission
Ericsson also provides a good summary in RP-190971 regarding Release 16 IAB and Rel-17 enhancements:
  • IAB Rel-16 provide basic support for multi-hop and multi-path relaying. 
  • The solution supports 
    • QoS prioritization of traffic on the backhaul link
    • Flexible resource usage between access and backhaul
    • Topology adaptivity in case link failure
  • In Rel-17 it would be possible to further evolve the IAB solution targeting increased efficiency and support for new use cases


Meanwhile in the recently concluded RAN#86, AT&T provided a good detailed summary on what enhancements are required for IAB as part of Rel-17 in RP-192709
  • Duplexing enhancements
    • Multiplexing beyond TDM (FDM/SDM/multi-panel Tx/Rx) including multi-parent scenarios, case 6/7 timing alignment, power control/CLI optimizations
  • Topology enhancements
    • Mobile IAB: CP/UP split + Group mobility 
    • Inter-CU topology adaptation
    • Mesh-connectivity between IAB nodes for local control/user plane routing
  • User plane enhancements
    • Multi-hop scheduling enhancement – exchange of benefit metric between IAB nodes to enable radio-aware multi-hop scheduling to improve throughput performance
  • Network Coding
    • Study benefits compared to duplication over redundant backhaul routes

We will have to wait and see what makes it into the enhancements and what don't. Meanwhile here is a video from Navid Abedini, Qualcomm from IEEE Sarnoff Symposium, 2019
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Monday 9 December 2019

5G Evolution with Matthew Baker, Nokia


I wrote a summary of CW (Cambridge Wireless) TEC conference here a couple of months back. The last session was on "Getting ready for Beyond-5G Era". Matthew Baker, Head of Radio Physical Layer & Co-existence Standardization, Nokia Bell Labs was one of the speakers. His talk provided a summary of 3GPP Rel-15 and then gave a nice and short summary of all the interesting things coming in Rel-16 and being planned for Rel-17. The slides from his presentation is embedded below:



Nokia also created a short video where Matthew talks about these new features. It's embedded below:



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Thursday 29 August 2019

LTE / 5G Broadcast Evolution


It's been a while since I last wrote about eMBMS. A report by GSA last month identified:
- 41 operators known to have been investing in eMBMS
- 5 operators have now deployed eMBMS or launched some sort of commercial service using eMBMS
- GSA identified 69 chipsets supporting eMBMS, and at least 59 devices that support eMBMS


BBC R&D are testing the use of 4G/5G broadcast technology to deliver live radio services to members of the public as part of 5G RuralFirst - one of 6 projects funded under the UK Government’s 5G Phase 1 testbeds and trials programme (link).

A press release by Samsung Electronics back in May announced that it has signed an expansion contract with KT Corporation (KT) to provide public safety (PS-LTE) network solutions based on 3GPP standard Release 13 for 10 major metropolitan regions in South Korea including Seoul by 2020. One of the features of PS-LTE that the PR listed was LTE Broadcast (eMBMS): A feature which allows real time feeds to hundreds of devices simultaneously. It enables thousands of devices to be connected at once to transfer video, images and voice simultaneously using multicast technology

Dr. Belkacem Mouhouche – Samsung Electronics Chief Standards Engineer  and Technical Manager of 5G projects: 5G-Xcast and 5G-Tours Presented an excellent overview on this topic at IEEE 5G Summit Istanbul, June 2019. His presentation is embedded below.



5G-Xcast is a 5GPPP Phase II project focused on Broadcast and Multicast Communication Enablers For the Fifth Generation of Wireless Systems.

They have a YouTube channel here and this video below is an introduction to project and the problems it looks to address.




Further Reading:

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Tuesday 13 August 2019

New 3GPP Release-17 Study Item on NR-Lite (a.k.a. NR-Light)

3GPP TSG RAN#84 was held from June 3 – 6, 2019 at Newport Beach, California. Along with a lot of other interesting topics for discussion, one of the new ones for Release-17 was called NR-Lite (not 5G-lite). Here are some of the things that was being discussed for the Study item.
In RP-190831, Nokia proposed:
  • NR-Lite should address new use cases with IoT-type of requirements that cannot be met by eMTC and NB-IoT:
    • Higher data rate & reliability and lower latency than eMTC & NB-IoT
    • Lower cost/complexity and longer battery life than NR eMBB
    • Wider coverage than URLLC
  • Requirements and use cases –
    • Data rates up to 100 Mbps to support e.g. live video feed, visual production control, process automation
    • Latency of around [10-30] ms to support e.g. remote drone operation, cooperative farm machinery, time-critical sensing and feedback, remote vehicle operation
    • Module cost comparable to LTE
    • Coverage enhancement of [10-15]dB compared to URLLC
    • Battery life [2-4X] longer than eMBB
  • Enable single network to serve all uses in industrial environment
    • URLLC, MBB & positioning

The spider chart on the right shows the requirements for different categories of devices like NB-IoT, eMTC (LTE-M), NR-LITE, URLLC and eMBB.
The understanding in the industry is that over the next 5 years, a lot of 4G spectrum, in addition to 2G/3G spectrum, would have been re-farmed for 5G. By introducing NR-Lite, there would be no requirement to maintain multiple RATs. Also, NR-Lite can take advantage of 5G system architecture and features such as slicing, flow-based QoS, etc.
Qualcomm's views in RP-190844 were very similar to those of Nokia's. In their presentation, the existing 5G devices are billed as 'Premium 5G UEs' while NR-Lite devices are described as 'Low tier 5G UEs'. This category is sub-divided into Industrial sensors/video monitoring, Low-end wearables and Relaxed IoT.

The presentation provides more details on PDCCH Design, Co-existence of premium and Low Tier UEs, Peak Power and Battery Life Optimizations, Contention-Based UL for Small Data Transmission, Relaying for Wearable and Mesh for Relaxed IoT
Ericsson's presentation described NR-Lite for Industrial Sensors and Wearables in RP-191047. RP-191048 was submitted as New SID (Study Item Description) on NR-Lite for Industrial Sensors and Wearables. The SID provides the following details:

The usage scenarios that have been identified for 5G are enhanced mobile broadband (eMBB), massive machine-type communication (mMTC), and time critical machine-type communication (cMTC). In particular, mMTC and cMTC are associated with novel IoT use cases that are targeted in vertical industries. 

 In the 3GPP study on “self-evaluation towards IMT-2020 submission” it was confirmed that NB IoT and LTE M fulfill the IMT-2020 requirements for mMTC and can be certified as 5G technologies. For cMTC support, URLLC was introduced in Release 15 for both LTE and NR, and NR URLLC is further enhanced in Release 16 within the enhanced URLLC (eURLLC) and Industrial IoT work items.

 One important objective of 5G is to enable connected industries. 5G connectivity can serve as catalyst for next wave of industrial transformation and digitalization, which improve flexibility, enhance productivity and efficiency, and improve operational safety. The transformed, digitalized, and connected industry is often referred to as Industry 4.0. Industrial sensors and actuators are prevalently used in many industries, already today. Vast varieties of sensors and actuators are also used in automotive, transport, power grid, logistics, and manufacturing industries. They are deployed for analytics, diagnostics, monitoring, asset tracking, process control, regulatory control, supervisory control, safety control, etc. It is desirable to connect these sensors and actuators to 5G networks. 

 The massive industrial wireless sensor network (IWSN) use cases and requirements described in TR 22.804, TS 22.104 and TS 22.261 do include not only cMTC services with very high requirements, but also relatively low-end services with the requirement of small device form factors, and/or being completely wireless with a battery life of several years. 

 The most low-end services could already be met by NB-IoT and LTE-M but there are, excluding URLLC, more high-end services that would be challenging. In summary, many industrial sensor requirements fall in-between the well-defined performance objectives which have driven the design of eMBB, URLLC, and mMTC. Thus, many of the industrial sensors have connectivity requirements that are not yet best served by the existing 3GPP NR technology components. Some of the aforementioned requirements of IWSN use cases are also applicable to other wide-area use cases, such as wearables. For example, smart watches or heath-monitoring wearables require small device form factors and wireless operation with weeks, months, or years of battery life, while not requiring the most demanding latency or data rates. 

 IWSN and wearable use cases therefore can motivate the introduction of an NR-based solution. Moreover, there are other reasons why it is motivated to introduce a native NR solution for this use case: 
  • It is desired to have a unified NR based solution.
  • An NR solution could provide better coexistence with NR URLLC, e.g., allowing TDD configurations with better URLLC performance than LTE.
  • An NR solution could provide more efficient coexistence with NR URLLC since the same numerology (e.g., SCS) can be adopted for the mMTC part and the URLLC part.
  • An NR solution addresses all IMT-2020 5G frequency bands, including higher bands and TDD bands (in FR1 and FR2).
The intention with this study item is to study a UE feature and parameter list with lower end capabilities, relative to Release 15 eMBB or URLLC NR, and identify the requirements which shall be fulfilled. E.g., requirements on UE battery life, latency, reliability, connection density, data rate, UE complexity and form factor, etc.  If not available, new potential NR features for meeting these requirements should further be studied.

There were other description of the SID from Samsung, ZTE, etc. but I am not detailing them here. The main idea is to provide an insight for people who may be curious about this feature.


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Monday 5 August 2019

An Introduction to Non-Terrestrial Networks (NTN)


I made a short introductory tutorial explaining what is meant by Non-Terrestrial Networks. There is is lot of work on this that is planned for Release-17. Slides and video below.






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Tuesday 9 July 2019

3GPP 5G Standardization Update post RAN#84 (July 2019)

3GPP recently conducted a webinar with Balazs Bertenyi, Chairman of 3GPP RAN in which he goes through some of the key features for 5G Phase 2. The webinar also goes through the details of 5G Release-15 completion, status of Release-16 and a preview of some of Release-17 features.

Slides & video embedded below. Slides can be downloaded from 3GPP website here.







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Tuesday 18 June 2019

3GPP Release-16, Release-17 & Beyond...

6G Summit featured quite a few talks from people looking at evolution beyond Release-16. The future releases will still be 5G, maybe become 5.5G, like 3GPP Release-13 which was known as LTE-Advanced Pro officially was unofficially known as 4.5G.


Back at the 6G Summit in Finland, Dr. Peiying Zhu from Huawei looked at the topics being discussed for Release-17 and beyond.


Thanks to Mika Klemettinen for sharing the pictures on Twitter, as the presentation was not shared.

3GPP is working towards defining Release-16. TS 21.916 - Release description; Release 16 is still not yet available on the 3GPP reflector. Once that is available, we will know for sure about all the Rel-16 changes. Release-17 is long way away. Having said that, there is no shortage of discussions as some of these Rel-17 features were discussed in the recent RAN Plenary.
Jungwon Lee, VP, Samsung also shared a summary of 3GPP Release-16 and Rel-17 features at IEEE 5G Summit in San Diego recently. Quite a few interesting features in all the pictures above that we will no doubt look at in the future posts.

3GPP also shared a presentation recently (embedded below), looking at not only Release-15 & 16 but also looking at focus areas for Release-17




Related Posts and Articles:
  • The 3G4G Blog - Ultra Reliability: 5x9s (99.999%) in 3GPP Release-15 vs 6x9s (99.9999%) in 3GPP Release-16
  • The 3G4G Blog - Update from 3GPP on LTE & 5G Mission Critical Communications
  • 3GPP - Release 16
  • Light Reading - 5G Standards Group Struggles to Balance Tech With Politics
  • Eiko Seidel - 5G Mission Critical Networks (Proximity Services in Rel.17)
  • The 3G4G Blog - Slides and Videos from the 1st 6G Wireless Summit - March 2019
  • The 3G4G Blog - Couple of talks by NTT Docomo on 5G and Beyond (pre-6G)
  • The 3G4G Blog - China Telecom: An examination of the current industrial trends and an outlook of 6G
  • Mission Critical Communications: Mission-Critical Features for Release 17 Discussed at Latest 3GPP Meetings

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