Monday, May 27, 2019

Bandwidth Part (BWP) in 5G New Radio (NR)


I made a short tutorial explaining the concept of Bandwidth Part in 5G a while back. Slides and video embedded below.







Further Reading:

Thursday, May 23, 2019

Presentations on Macro Cells and Millimetre-wave Technology from recent CW (Cambridge Wireless) events


CW (Cambridge Wireless) held a couple of very interesting events from 2 very popular groups.

The first one was on "5G wide area coverage: macro cells – the why and the how". This event looked at the design and optimisation of the macro cell layer and its role within future heterogeneous networks. You can access the presentations for limited time on CW website here.

The presentations available are:
Related posts that may be of interest:


The second one was on "Commercialising millimetre-wave technology". The event reviewed the commercial opportunities at millimetre-wave frequencies, what bands are available and what licensing is needed. You can access the presentations on CW website for limited time here.

The presentations available are:

We recently made a video to educate people outside our industry about non-mmWave 5G. It's embedded below.


Sunday, May 19, 2019

VoLTE Hacking


The 10th Annual HITB Security Conference took place from the 6th till the 10th of May 2019 in The Netherlands. The theme for the conference this year is 'The Hacks of Future Past'. One of the presentations was on the topic 'VoLTE Phreaking' by Ralph Moonen, Technical Director at Secura.

The talk covered variety of topics:

  • A little history of telephony hacking (in NL/EU)
  • The landscape now
  • Intercepting communications in 2019
  • Vulnerabilities discovered: some new, some old
  • An app to monitor traffic on a phone

The talk provides details on how VoLTE can potentially be hacked. In a lot of instances it is some or the other misconfigurations that makes VoLTE less secure. One of the slides that caught my attention was the differences in VoLTE signaling from different operators (probably due to different vendors) as shown above.

Anyway, I am not going into more details here. The presentation is available here.


The thread in the Tweet above also provided some good references on VoLTE hacking. They are as follows:



Related Posts:


Wednesday, May 15, 2019

When will 2G & 3G be switched off now that 5G is here?


I wrote this blog post '2G / 3G Switch Off: A Tale of Two Worlds' back in Oct 2017. Since then I have continued to see the same trend in 2G/3G shutdown announcements. Based on that post and also taking the GSMA Mobile Economy Report into account, we have created a short tutorial on 2G/3G switch off and how the trends are affected by the launch of KaiOS based Smart Feature phones. Presentation and video embedded below. Would love to hear your thoughts.





Related posts:

Monday, May 13, 2019

China Telecom: An examination of the current industrial trends and an outlook of 6G


Last month I posted about the slides and videos from 6G Wireless Summit. Some of the videos were added later on. The presentation by Dr. Qi Bi, President of China Telecom Technology Innovation Center and the CTO of China Telecom Research Institute, was not shared but the video of the talk is available and it is quite insightful.


Of the many gems from the talk, I wanted to highlight couple of things. One was the ARPU, that Dr. Bi pointed out has remained the same, regardless of the technology. The other being 5G performance targets, some can be achieved, some are achievable at a price and some are just not achievable. This should be taken into account while designing 6G.


Let me know what you think

Related posts:

Thursday, May 9, 2019

Examples of 5G Use Cases & Applications


I recently did another 5G training for CW (Cambridge Wireless) & UK5G. One of the sections in that was about Use Cases. A very common questions that people ask is what can 5G do that 4G can't. The answer frankly is sometimes not very straightforward.


While you can get a very high speed and very reasonable latency 4G system, it's not necessarily a commonplace. Similarly 5G is a bit over-hyped. There is a lot of potential in the technology but the theory may not translate into practice. Take for example millimeter wave. There is a large amount of bandwidth that can be available to each operator in this spectrum. The laws of physics however restrict how far mmWave can travel and also the fact that mmWave does not penetrate through glass, walls, etc. Does that mean that an indoor 5G system would be required to complement an outdoor one? Would Wi-Fi be able to complement cellular in-building? There are many unanswered questions at the moment.

There is also the debate around 5G icon displayed on your smartphones. When you see 5G, would it really be 5G or just re-branded 4G? Light Reading has explained this issue nicely here.

So while there are many potential applications & use cases that will benefit from 5G in the long run, the answers are not that easily available today. Anyhow, the collection of videos and slides embedded below will provide you with an insight on how different vendors and operators are looking at potentially using 5G.






The latest version of these slides are available to download from UK5G website here.

Monday, May 6, 2019

Non-public networks (NPN) - Private Networks by another name


3GPP TS 22.261, Service requirements for the 5G system; Stage 1 gives a definition of non-public network which is simply defined as 'a network that is intended for non-public use'. Section 6.25 provides more info

Non-public networks are intended for the sole use of a private entity such as an enterprise, and may be deployed in a variety of configurations, utilising both virtual and physical elements. Specifically, they may be deployed as completely standalone networks, they may be hosted by a PLMN, or they may be offered as a slice of a PLMN.

In any of these deployment options, it is expected that unauthorised UEs, those that are not associated with the enterprise, will not attempt to access the non-public network, which could result in resources being used to reject that UE and thereby not be available for the UEs of the enterprise. It is also expected that UEs of the enterprise will not attempt to access a network they are not authorised to access. For example, some enterprise UEs may be restricted to only access the non-public network of the enterprise, even if PLMN coverage is available in the same geographic area. Other enterprise UEs may be able to access both a non-public network and a PLMN where specifically allowed.

The requirements section is interesting too:
  • The 5G system shall support non-public networks.
  • The 5G system shall support non-public networks that provide coverage within a specific geographic area.
  • The 5G system shall support both physical and virtual non-public networks. 
  • The 5G system shall support standalone operation of a non-public network, i.e. a non-public network may be able to operate without dependency on a PLMN.
  • Subject to an agreement between the operators and service providers, operator policies and the regional or national regulatory requirements, the 5G system shall support for non-public network subscribers:
    • access to subscribed PLMN services via the non-public network;
    • seamless service continuity for subscribed PLMN services between a non-public network and a PLMN;
    • access to selected non-public network services via a PLMN;
    • seamless service continuity for non-public network services between a non-public network and a PLMN.
  • A non-public network subscriber to access a PLMN service shall have a service subscription using 3GPP identifiers and credentials provided or accepted by a PLMN.
  • The 5G system shall support a mechanism for a UE to identify and select a non-public network.
    • NOTE: Different network selection mechanisms may be used for physical vs virtual non-public networks.
  • The 5G system shall support identifiers for a large number of non-public networks to minimize collision likelihood between assigned identifiers.
  • The 5G system shall support a mechanism to prevent a UE with a subscription to a non-public network from automatically selecting and attaching to a PLMN or non-public network it is not authorised to select.
  • The 5G system shall support a mechanism to prevent a UE with a subscription to a PLMN from automatically selecting and attaching to a non-public network it is not authorised to select. 
  • The 5G system shall support a change of host of a non-public network from one PLMN to another PLMN without changing the network selection information stored in the UEs of the non-public network.


5G ACIA (5G Alliance for Connected Industries and Automation), a Working Party of ZVEI (German Electrical and Electronic Manufacturers’ Association) published a White Paper on '5G Non-Public Networks for Industrial Scenarios'.

This paper describes four industrial (IIoT) deployment scenarios for 3GPP-defined 5G non-public networks. The paper also considers key aspects, in particular service attributes that can help to highlight the differences between these scenarios. In contrast to a network that offers mobile network services to the general public, a 5G non-public network (NPN, also sometimes called a private network) provides 5G network services to a clearly defined user organisation or group of organisations.

The PDF of the white paper is available here.

Wednesday, May 1, 2019

Webinar: Where Edge Meets Cloud by Dean Bubley


Dean Bubley, Outspoken Telecoms & Mobile Industry Analyst, Consultant & Chair/Speaker on Networks, Wireless, Internet, AI & Futurism (as stated in his LinkedIn profile), recently did a webinar on Edge computing for Apis Training. The video recording is available online and embedded below.


Couple of things worth highlighting (but do listen to the webinar, it's got lots of interesting stuff) is as shown in the picture above and below. One of the benefits of Edge is Low latency. If that is the driver then you need to know where your Edge should be because latency will be affected based on the location. Another important point worth remembering is how many Edge-compute facilities can you afford. Latency & the number of facilities are linked to each other so worth thinking about in the beginning as it may not be straightforward to change later.



Anyway, here is the recording of the webinar.



Related post:



Monday, April 29, 2019

Evolution of Security from 4G to 5G


Dr. Anand Prasad, who is well known in the industry, not just as CISO of Rakuten Mobile Networks but also as the Chairman of 3GPP SA3, the mobile communications security and privacy group, recently delivered a talk on '4G to 5G Evolution: In-Depth Security Perspective'.


The video of the talk is embedded below and the slides are available here.



An article on similar topic by Anand Prasad, et al. is also available on 3GPP website here.


Related posts and articles:

Sunday, April 21, 2019

Wi-Fi 6 (a.k.a. 802.11ax) and other Wi-Fi enhancements

Last year I wrote about how Wi-Fi is getting new names. 802.11ax for example, the latest and greatest of the Wi-Fi standards is known as Wi-Fi 6. There were many announcements at MWC 2019 about WiFi 6, some of which I have captured here.

I came across a nice simple explanatory video explaining Wi-Fi 6 for non-technical people. Its embedded below.


The video is actually sponsored by Cisco and you can read more about Wi-Fi 6 and comparison of Wi-Fi 6 and 5G on their pages.

At MWC19, Cisco was showing Passpoint autoconnectivity on Samsung Galaxy S9, S9+ or Note 9 device. According to their blog:

Together, we’re working to provide a better bridge between mobile and Wi-Fi networks. At Mobile World Congress in Barcelona we’ll show the first step in that journey. Anyone using a Samsung Galaxy S9, S9+ or Note 9 device (and those lucky enough to have an early Galaxy S10) over the Cisco-powered guest wireless network will be able to seamlessly and securely connect – without any manual authentication. No portal, no typing in passwords, no picking SSIDs, no credit cards — just secure automatic connectivity.  How?  By using credentials already on your phone, like your operator SIM card.  Even if your operator doesn’t currently support Passpoint autoconnectivity, your Samsung smartphone will!  As a Samsung user, you already have an account for backups and device specific applications. This credential can also be used for a secure and seamless onboarding experience, supporting connectivity to enterprise, public and SP access networks.

It's worth mentioning here that the WPA2 authentication algorithm is being upgraded to WPA3 and we will see broad adoption this year, in conjunction with 802.11ax. See the tweet for details

Broadcom announced their new BCM43752, Dual-Band 802.11ax Wi-Fi/Bluetooth 5 Combo Chip. Motley Fool explains why this is interesting news:

The chip specialist is rounding out its Wi-Fi 6 portfolio to address lower price points.

When Samsung announced its Galaxy S10-series of premium smartphones, wireless chipmaker Broadcom announced, in tandem, that its latest BCM4375 Wi-Fi/Bluetooth connectivity combination chip is powering those new flagship smartphones. That chip was the company's first to support the latest Wi-Fi 6 standard, which promises significant performance improvements over previous-generation Wi-Fi technology.

The BCM4375 is a high-end part aimed at premium smartphones, meaning that it's designed for maximum performance, but its cost structure (as well as final selling price) is designed for pricier devices that can handle relatively pricey chips.

Broadcom explains that the BCM43752 "significantly reduces smartphone bill of materials by integrating [radio frequency] components such as power amplifiers (PAs) and low-noise amplifiers (LNAs) into the device."

The idea here is simple: Since these components are integrated in the chip that smartphone makers are buying from Broadcom, those smartphone makers won't need to buy those components separately.

In the press release, Broadcom quoted Phil Solis, research director at the market research company IDC, as saying that this chip "reduced costs by going down to single core, 2X2 MIMO for Wi-Fi, integrating the PAs and LNAs, and offering flexible packaging options while keeping the same functionality as their flagship combo chip." 

Broadcom explains that this chip is targeted at "the broader smartphone market where high performance and total solution cost are equally important design decisions."

In addition to these, Intel showed a demo of Wi-Fi 6 at 6GHz. Most people are aware that Wi-Fi uses 2.4 GHz, 5 GHz & 60 GHz band. According to Wi-Fi Now:

So why is that important? Simply because 6 GHz Wi-Fi is likely the biggest opportunity in Wi-Fi in a generation – and because Intel’s demo shows that Wi-Fi chipset vendors are ready to pounce on it. The demonstration was a part of Intel’s elaborate Wi-Fi 6 (802.11ax) demonstration set at MWC.

“When this enhancement [meaning 6 GHz spectrum] to Wi-Fi 6 rolls out in the next couple of years, it has the potential to more than double the Wi-Fi spectrum with up to 4x more 160 MHz channel deployment options,” said Doron Tal, Intel’s General Manager Wireless Infrastructure Group, in his blog here. Doron Tal emphasises that the prospect of including 6 GHz bands in Wi-Fi for the time being realistically only applies to the US market.

Intel also says that a growing number of currently available PCs already support 160 MHz channels, making them capable of operating at gigabit Wi-Fi speeds. This means that consumers will get ‘a pleasant surprise’ in terms of speed if they invest in a Wi-Fi 6 home router already now, Intel says.

It may however take a while before US regulator FCC finally rules on allowing Wi-Fi to operate in the 6 GHz bands. Right now the FCC is reviewing dozens of response submissions following the issuing of the NPRM for unlicensed 6 GHz operation – and they will likely have their hands full for months while answering a litany of questions as to prospective new 6 GHz spectrum rules.

Also an important part of the 6 GHz story is the fact that the IEEE only weeks ago decided that – as far as the 802.11 standards are concerned – only Wi-Fi 6 (802.11ax) will be specified to operate in the 6 GHz band. That means 6 GHz will be pristine legacy-free territory for Wi-Fi 6 devices.

That brings us to the Wi-Fi evolution that will be coming after 802.11ax. IEEE 802.11 Extremely High Throughput (EHT) Study Group was formed late last year that will be working on defining the new 802.11be (Wi-Fi 7?) standards. See tweet below:

The interesting thing to note here is that the Wi-Fi spectrum will become flexible to operate from 1 GHz to 7.125 GHz. Of course the rules will be different in different parts of the world. It will also have to avoid interference with other existing technologies like cellular, etc.

According to Fierce Wireless, Huawei has completed a global deployment of its enterprise-class Wi-Fi 6 products under the new AirEngine brand. Speaking at the company’s Global Analyst Summit, Huawei said its Wi-Fi 6 products have been deployed on a large scale in five major regions worldwide.

Back at MWC, Huawei was showing off their Wi-Fi 6 enabled CPEs. See tweet below:

Huawei has many different enterprise networking products that are already supporting Wi-Fi 6 today. You can see the details along with whitepapers and application notes here. In addition, the Top 10 Wi-Fi 6 misconceptions are worth a read, available here.

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