The DAPS handover is a new feature for URLLC services defined by 3GPP in Rel. 16.
Wednesday, 7 October 2020
Understanding the Dual Active Protocol Stack (DAPS) Handover in 5G
The DAPS handover is a new feature for URLLC services defined by 3GPP in Rel. 16.
Friday, 2 October 2020
5G Enhanced URLLC (eURLLC)
Here is a short video from the training company Mpirical, explaining the the 5G eURLLC feature:
Related Posts:
- The 3G4G Blog: ATIS Webinar on '5G Standards Developments in 3GPP Release 16 and Beyond'
- The 3G4G Blog: Carrier Aggregation (CA) and Dual Connectivity (DC)
- The 3G4G Blog - Ultra Reliability: 5x9s (99.999%) in 3GPP Release-15 vs 6x9s (99.9999%) in 3GPP Release-16
- The 3G4G Blog: Anritsu Webinar on 'Evolution of 5G from 3GPP Rel-15 to Rel-17 and Testing Challenges'
- The 3G4G Blog: 2-step RACH Enhancement for 5G New Radio (NR)
Sunday, 27 September 2020
ATIS Webinar on '5G Standards Developments in 3GPP Release 16 and Beyond'
3GPP Organizational Partner, ATIS (Alliance for Telecommunications Industry Solutions), recently delivered a webinar (video & slides below) titled "5G Standards Developments in 3GPP Release 16 and Beyond".
Related Posts:
- The 3G4G Blog: Anritsu Webinar on 'Evolution of 5G from 3GPP Rel-15 to Rel-17 and Testing Challenges'
- The 3G4G Blog: 2-step RACH Enhancement for 5G New Radio (NR)
- The 3G4G Blog: Mobile Initiated Connection Only (MICO) mode in 5G System
- The 3G4G Blog: 3GPP MDT - How it works and what is new in Rel. 16
- The 3G4G Blog: Interfacing HSS and UDM in 5GS with UDICOM (a.k.a NU1 / Nhss)
- The 3G4G Blog: Would 5G NSA undergo Sunset? When?
- The 3G4G Blog - Tutorial: Service Based Architecture (SBA) for 5G Core (5GC)
- The 3G4G Blog: 5G and Fixed-Mobile Convergence (FMC)
Sunday, 20 September 2020
Reliance Jio and 5G Network Architecture Option 6
Last week I read about Jio looking at 5G Network Architecture Option 6. There were also a few discussions on Twitter with users sounding a bit confused. So here is my attempt to explain what is Option 6. Video and slides embedded below.
You can also see this original video where Satish Jamadagni, Vice President - Network Planning Engineering, Head of Standards at Reliance Jio talks about the need for Option 6.
Feel free to leave your thoughts in the comments below.
Related Posts:
- Operator Watch Blog: Jio going it alone for 5G Development
- Operator Watch Blog: Jio is the Largest Mobile Network in India by Subscriber Numbers
- Operator Watch Blog: Jio Makes Another Set of Extremely Bold Announcements
- The 3G4G Blog: 5G Network Architecture Options (Updated)
- The 3G4G Blog: The Politics of Standalone vs Non-Standalone 5G & 4G Speeds
- The 3G4G Blog: What about 5G Network Architecture Option 4 (a.k.a. NE-DC) ?
- The 3G4G Blog: Would 5G NSA undergo Sunset? When?
- The 3G4G Blog - Tutorial: Service Based Architecture (SBA) for 5G Core (5GC)
- 3G4G: Free 2G, 3G, 4G & 5G Training Videos
- 3G4G: 5G (IMT-2020) Wireless
- 3G4G: 3GPP 5G Standards and Specifications
- Free 5G Training
Thursday, 10 September 2020
Interfacing HSS and UDM in 5GS with UDICOM (a.k.a NU1 / Nhss)
In the recent 5G World event, Richard Band, Head of 5G Core, HPE talked about 4G to 5G transition planning. During the talk he mentioned about UDICOM, which is the Standardised new interface between HSS and UDM as defined in 3GPP TS 23.632.
5G Security, Openness, and Trust Considerations: How an open and transparent 5G core design can bolster confidence - A joint paper written by @mobileworldlive and @HPE - https://t.co/XkJHUaaGTM#Free5Gtraining #5G #5GNetwork #5GC #5GCore #HPE #MWL #Security #5GSecurity pic.twitter.com/NWVgnl9INQ— 5G Training (@5Gtraining) September 6, 2020
UDICOM allows operators to deploy separate HSS and UDM, even from different vendors. Supported features include:
- Authentication
- Single Registration Handover
- IMS
- SMS over NAS
As can be seen in the picture above, the following reference points are realized by service-based interfaces:
NU1: Reference point between the HSS and the UDM.
NU2: Reference point between the HSS and the 5GS-UDR.
The following Service based interfaces are defined for direct UDM-HSS interworking:
Nudm: Service-based interface exhibited by UDM.
Nhss: Service-based interface exhibited by HSS.
Finally, this talk from HP Enterprise below provides more details of UDICOM.
Related Posts:
- The 3G4G Blog - Tutorial: Service Based Architecture (SBA) for 5G Core (5GC)
- The 3G4G Blog: Two Types of SMS in 5G
- The 3G4G Blog: 5G Roaming with SEPP (Security Edge Protection Proxy)
- The 3G4G Blog: 5G eXtended Reality (5G-XR) in 5G System (5GS)
- The 3G4G Blog: 5G and Fixed-Mobile Convergence (FMC)
- Connectivity Technology Blog: Fixed Wireless Access (FWA) and the Path to 5G Wireless Wireline Convergence (WWC)
- The 3G4G Blog: 5G Network Architecture Options (Updated)
- The 3G4G Blog: What about 5G Network Architecture Option 4 (a.k.a. NE-DC) ?
- The 3G4G Blog: Would 5G NSA undergo Sunset? When?
Thursday, 3 September 2020
Two Types of SMS in 5G
GSMA recently published updated "5G Implementation Guidelines: SA Option 2". It explains the two types of SMS in 5G, the same way there were 2 types of SMS in LTE.
Within 5GC, SMS Function (SMSF) supports SMS over NAS (SMSoNAS) defined in 3GPP TS 23.501. Besides, SMSoIP can also be considered as IMS based SMS solution under 5G network. SMSoIP can be deployed simultaneously with voice service over IMS to provide both voice and short message service. It is recommended to use SMSoNAS solution if voice services over IMS is not supported or for a 5G data card/Machine Type Communications (MTC)/Non-IMS device without voice service. The network architecture of SMSoIP and SMSoNAS is shown in Figure.
Mpirical explains it in the video as embedded below:Two Types of SMS in 5G: SMS over NAS (SMSoNAS) & SMS over IP/IMS (SMSoIP / SMSoIMS) - https://t.co/A88ayY8F1x via @3g4gUK #Free5Gtraining #3G4G5G #GSMA #Mpirical #4G #5G #5GNetworks #5Gtechnology #SMS #5GSMS #Messaging #5GMessaging #SMSoNAS #SMSF #SMSoIP #IMS #SMSoIMS pic.twitter.com/ceI7wGEWBt
— Free 5G Training (@5Gtraining) May 31, 2021
You may also find "5G SMS is Very Real and Here to Stay" by William Dudley useful. It covers a lot of technical details and signalling. It's available here.
Related posts:
- The 3G4G Blog: Mobile Voice Communications is neither Dying, nor Dead!
Friday, 28 August 2020
3GPP MDT - How it works and what is new in Rel. 16
Today I launched my first video. It is about the 3GPP Minimization of Drive Test (MDT) and what is new for this feature in Rel. 16 / 5G networks.
This video explains the overall concept of the MDT feature defined by 3GPP. Individual signaling procedures for immediate and logged mode MDT reporting are presented as well as the latest enhancements for 5G networks defined in 3GPP Release 16.
Enjoy watching
Wednesday, 26 August 2020
Multi-SIM Terminology
This new video and presentation looks at the operation and terminology associated with multiple SIMs in mobile cellular devices.
Slides and video embedded below introduces the concept of transceivers, active and standby states and then look at Dual Sim Single & Dual Standby (DSSS / DSDS), Dual SIM Dual Active (DSDA), Triple SIM Triple Standby (TSTS) and finally, Quad SIM Quad Standby (QSQS) in case of four SIM cards.
Related Posts:
Wednesday, 19 August 2020
Would 5G NSA undergo Sunset? When?
I have been thinking about the long term evolution of 5G and have now reached the conclusion that it would make sense in the long run to switch off non-standalone 5G. This would of course be only after 5G core has been tested and used extensively. Instead of writing my reasoning, here is a 10 minute video and the corresponding slides.
Let me know what you think in the comments below. If you agree, when do you think is the best time for 5G NSA Sunset?
Related Posts:
- The 3G4G Blog: 5G Network Architecture Options (Updated)
- The 3G4G Blog: The Politics of Standalone vs Non-Standalone 5G & 4G Speeds
- The 3G4G Blog: What about 5G Network Architecture Option 4 (a.k.a. NE-DC) ?
- Operator Watch Blog: The Many Firsts of STC Kuwait
- The 3G4G Blog: Service Based Architecture (SBA) for 5G Core (5GC)
- The 3G4G Blog: 5G Dynamic Spectrum Sharing (DSS)
- 3G4G: Free 2G, 3G, 4G & 5G Training Videos
- 3G4G: 5G (IMT-2020) Wireless
- 3G4G: 3GPP 5G Standards and Specifications
- Free 5G Training
Wednesday, 12 August 2020
Telecom Services and Data Pricing
One of the reports that ITU releases is called "Measuring Digital Development: ICT Price Trends". The latest report for 2019 was released in May this year. The press release says:
On average, prices for mobile-voice, mobile-data and fixed-broadband services are decreasing steadily around the world, and in some countries even dramatically. The reduction in price relative to income is even more dramatic, suggesting that, globally, telecommunication and information and communication technology services are becoming more affordable. However, both trends do not translate into rapidly increasing Internet penetration rates which suggests that there are other barriers to Internet use, concludes ITU in its new statistical report, Measuring Digital Development: ICT Price Trends 2019.
The latest statistics from ITU confirm that affordability may not be the only barrier to Internet uptake, and that other factors such as:
- low level of education,
- lack of relevant content,
- lack of content in local languages,
- lack of digital skills, and a
- low-quality Internet connection may also prevent effective use.
Key results:
- An entry-level mobile-voice basket remains broadly affordable in most countries. In 70 countries, a low-usage mobile-voice plan was available for less than 1 per cent of gross national income (GNI) per capita, and in a further 37 countries it stood below 2 per cent. Although causality is difficult to prove, price reductions have undoubtedly helped contribute to the rapid rise in the mobile-voice penetration rate, alongside growing competition and better price monitoring and evaluation by regulators.
- The expansion of bundled services has further reduced prices, as combined data-and-voice baskets are generally less expensive than the sum of the two separate baskets in most markets.
- Prices have decreased from 2013 to 2019 relative to GNI per capita The global average price of a mobile-data basket of 1.5 GB shrank from 8.4 per cent of GNI per capita in 2013 to 3.2 per cent in 2019, at a compound annual growth rate of almost -15 per cent. When expressed in USD, the global average price of a mobile-data basket of at least 1.5 GB dropped by 7 per cent on average annually between 2013 and 2019.
- Good progress has been made towards the Broadband Commission for Sustainable Development's target of achieving affordable broadband costing 2-5 per cent of GNI per capita by 2025, but still more remains to be done. There are still nine developing countries and 31 LDCs that have yet to reach the 2 per cent target by 2025.
- Fixed-broadband packages remain generally more expensive than mobile-data packages (although data allowances are not always directly comparable). Over the past four years, the affordability of fixed broadband has not changed substantially, but advertised download speeds continue to increase.
Some of the results are quite interesting as shown in the image above. The picture on top left shows the different types of packages. The report analyses price data for five key services based on the following five baskets:
- mobile-data-and-voice basket (i.e. voice, SMS and mobile data combined) – low consumption (70 minutes, 20 SMSs and 500 MB);
- mobile-data-and-voice basket – high consumption (140 minutes, 70 SMSs and 1.5 GB);
- mobile-voice (including voice and SMS);
- mobile-data;
- fixed-broadband.
Chart 2 shows Mobile data and voice baskets in PPP$, where PPP stands for purchasing power parity. This is defined as basket of goods based comparison approach (see here)
Finally, chart 3 shows Mobile data and voice basket as a % of GNI p.c. GNI stands for gross national income. Expressing prices relative to GNI per capita (GNI p.c.), as a measure of affordability, reveals huge gaps between prices for different levels of development. In developed countries, the price of a low-consumption mobile-data-and-voice basket was equivalent to 1 per cent of GNI p.c. in 2019. In developing countries, this basket cost 7.5 per cent of GNI p.c., while in the LDCs this rose sharply to 17 per cent. For high-consumption mobile-data-and-voice baskets, the differences were even larger.
Visual Capitalist has a nice summary of data prices for 1GB of Mobile data in different parts of the world. A striking trend worth noting is that four out of five of the most expensive countries (Malawi, Benin, Chad, Yemen & Botswana) for mobile data are in Sub-Saharan Africa (SSA).
Cable.co.uk have an interactive map here, that allows you to see prices in different parts of the world. As you would guess, the cheapest data prices in the world is in India.
Finally, eXtensia has a list of data costs in African countries from 2019 here, a lot has changed in the last year so you may have to check if the information you need is correct as of today.
Related Posts:
- The 3G4G Blog: Changes in LTE pricing strategies
- The 3G4G Blog: Mobile can help with United Nations SDGs, only if prices go down
- The 3G4G Blog - Finland: A country with only Unlimited Data Plans
- The 3G4G Blog: Mobile Voice Communications is neither Dying, nor Dead!
- Operator Watch Blog: Vodafone UK Launches 5G, Plans Disruption With Unlimited Data Plans