Qualcomm is touting a similar 1000x figure as I showed in a post earlier here.
Friday, 12 April 2013
Myths and Challenges in Future Wireless Access
Qualcomm is touting a similar 1000x figure as I showed in a post earlier here.
Monday, 8 April 2013
Interference Management in HetNets
Interference Management is a big topic in HetNet's. An earlier blog post here on similar topic was very popular. The above picture shows a Heterogeneous cellular network topology incorporating different forms of small cell deployments as an overlay on the macrocell network. Small cells would generally use secure tunnels back to the core network using existing broadband infrastructure. Whereas in the HCS (Hierarchical Cell Structures), different layers have different frequencies, thereby not causing radio frequency interference, in HetNets same frequencies can be used between different layers. The same frequencies can cause radio frequency Interference and necessitates the use of advanced Interference avoidance techniques.
CTTC has another interesting presentation on Interference Management in HetNets that I am embedding below as slides and video:
Labels:
HetNets,
Interference Management,
Videos
Monday, 1 April 2013
The 'Phantom Cell' concept in LTE-B
One of the LTE-B proposals by NTT Docomo is this 'Phantom Cell' concept. A recent article from the IEEE Communications Magazine expands this further:
Phantom Cell Concept — In the current deployments, there are a number of capacity solutions for indoor environments such as WiFi, femtocells, and in-building cells using distributed antenna systems (DAS). However, there is a lack of capacity solutions for high-traffic outdoor environments that can also support good mobility and connectivity. Thus, we propose the concept of macro-assisted small cells, called the Phantom Cell, as a capacity solution that offers good mobility support while capitalizing on the existing LTE network. In the Phantom Cell concept, the C-plane/U-plane are split as shown in Fig. The C-plane of UE in small cells is provided by a macrocell in a lower frequency band, while for UE in macrocells both the C-plane and U-plane are provided by the serving macrocell in the same way as in the conventional system. On the other hand, the Uplane of UE in small cells is provided by a small cell using a higher frequency band. Hence, these macro-assisted small cells are called Phantom Cells as they are intended to transmit UE-specific signals only, and the radio resource control (RRC) connection procedures between the UE and the Phantom Cell, such as channel establishment and release, are managed by the macrocell.
The Phantom Cells are not conventional cells in the sense that they are not configured with cell specific signals and channels such as cell-ID-specific synchronization signals, cell-specific reference signals (CRS), and broadcast system information. Their visibility to the UE relies on macrocell signaling. The Phantom Cell concept comes with a range of benefits. One important benefit of macro assistance of small cells is that control signaling due to frequent handover between small cells and macrocells and among small cells can be significantly reduced, and connectivity can be maintained even when using small cells and higher frequency bands. In addition, by applying the new carrier type (NCT) that contains no or reduced legacy cell-specific signals, the Phantom Cell is able to provide further benefits such as efficient energy savings, lower interference and hence higher spectral efficiency, and reduction in cellplanning effort for dense small cell deployments.
To establish a network architecture that supports the C/U-plane split, and interworking between the macrocell and Phantom Cell is required. A straightforward solution to achieve this is to support Phantom Cells by using remote radio heads (RRHs) belonging to a single macro eNB. This approach can be referred to as intra-eNB carrier aggregation (CA) using RRHs. However, such a tight CA-based architecture has some drawbacks as it requires single-node operation with low-latency connections (e.g., optical fibers) between the macro and Phantom Cells. Therefore, more flexible network architectures should be investigated to allow for relaxed backhaul requirements between macro and Phantom Cells and to support a distributed node deployment with separated network nodes for each (i.e., inter-eNB CA).
Labels:
Carrier Aggregation,
LTE-Advanced,
NTT DoCoMo,
Release 12,
Small Cells
Saturday, 23 March 2013
LTE for Public Safety Networks
The last presentation on this topic couple of months back has reached nearly 7K views so here is another one from a recent article on the same topic from IEEE Communications Magazine
Labels:
D2D,
LTE,
Network Architecture,
Public Safety Comm,
Spectrum
Monday, 18 March 2013
From M2M Communications to IoT
M2M was again in the news recently when a new report suggested that it would be $1 Trillion industry. Back in december I posted a detailed presentation on M2M that has now crossed over 6K views. This shows that there is an appetite for this topic. So here is a three part presentation on M2M and IoT. In fact as I pointed out in a post last year, it is very often referred to as IoE (Internet of Everything) rather than IoT (Internet of Things). If this is a topic close to your heart then please do come to the Future of Wireless International Conference (FWIC) organised by Cambridge Wireless on 1st and 2nd July 2013. Details here.
Labels:
Cambridge Wireless (CW),
Internet of Things,
M2M
Thursday, 14 March 2013
What is WebRTC and where does it fit with LTE and IMS
This simple video from MWC should give an idea on what WebRTC is and can do:
So what exactly WebRTC is in technical terms. Here is a recent presentation from WebRTC Conference and Expo
And here is another presentation that explains where it fits in with the LTE Architecture.
Dean Bubley from Disruptive Analysis has writted extensively on this topic and his recent post "Is the telephony "threat" from VoIP & WebRTC about competition or contextualisation?" is an interesting read.
Iain Sharp from Netovate recently pointed out that 3GPP have 'nearly' approved a work item for WebRTC access to IMS.
It would be interesting to see how operators will view WebRTC. As an opportunity or as a threat. Please feel free to air your opinions via comments.
So what exactly WebRTC is in technical terms. Here is a recent presentation from WebRTC Conference and Expo
And here is another presentation that explains where it fits in with the LTE Architecture.
Dean Bubley from Disruptive Analysis has writted extensively on this topic and his recent post "Is the telephony "threat" from VoIP & WebRTC about competition or contextualisation?" is an interesting read.
Iain Sharp from Netovate recently pointed out that 3GPP have 'nearly' approved a work item for WebRTC access to IMS.
It would be interesting to see how operators will view WebRTC. As an opportunity or as a threat. Please feel free to air your opinions via comments.
Labels:
Alcatel-Lucent,
Conferences and Events,
Firefox OS,
IMS,
LTE,
Mobile World Congress,
Network Architecture,
Release 12,
Videos,
WebRTC
Monday, 11 March 2013
DAS or 'Small Cells' and What is DAS anyway?
Its been a while I posted something on DAS (a.k.a. Distributed Antenna System). The articles I have posted have been mainly from AT&T and are here, here and here.
Recently I read something interesting from IDG here:
This is an interesting point because the Small Cells are still not evolved enough so that a single one can serve multiple operators, etc. Note that I am differentiating the closed residential femtocells from the public access small cells. Maybe a service such as FaaS or 'Femto as a Service' can help solve this problem. Based on my previous sentences, some of you may say that it should be called Small Cell as a Service (SCaaS) rather than FaaS but unfortunately that term has come to mean something else as can be seen here.
While initially the in-building solutions were mainly for coverage reasons, this may no longer be the only reason. Capacity is also an issue, especially in-building. Small cells can certainly help in the capacity area much more than DAS. Fortunately as most new phones are coming with inbuilt Wi-Fi chipsets and WiFi is available indoors in plenty, the capacity issue may no longer be a problem indoors. Again this is an area where we can have lots of discussions and each party with a vested interest can argue their case.
Here are couple of interesting videos from youtube that explain DAS:
There is also an interesting presentation by NEC in the Small Cell Americas event, embedded below:
Picture source: The IET
Recently I read something interesting from IDG here:
Complete article is available here.According to Rob Bruce, Chief Operating Officer at distributed antenna system (DAS) vendor Axell Networks, a building is an asset, and that asset wants to deliver all the services it can in the simplest and most economical way."You wouldn't put five separate lighting systems into a building because there are five separate tenants in that building. You would put one in, and it becomes a utility for that building," Bruce told Techworld."Our view of life is it's the same for cellular coverage. You put one system in which covers the building. That is then a utility for the building, and operators can then connect into that infrastructure - that's how a DAS system works."Bruce said that small cells are very good for single operator environments, when a single operator wants to add some capability into a particular area. But if they want to put multiple technologies into that environment then they have to put in multiple small cells.So if a company in the UK wants to put GSM, UMTS and LTE into an office block, it has to install three small cells. If it wants to make that truly operator agnostic, it will probably have to put in 12 units, because each of the four operators uses at least three spectrum bands.Axell Wireless recently installed a multi-operator DAS in The Shard in London, using 20 remote units to cover the whole building. Bruce claimed that, if the same thing had been done using small cells, it would involve over 100 units."So the building owner is saying I've got 100 lumps of intelligent electronics gadgetry that is scattered all over my building, and there's 4 different operators wanting access to all those different things in private flats, hotels and offices - it's just an operational nightmare," said Bruce.
This is an interesting point because the Small Cells are still not evolved enough so that a single one can serve multiple operators, etc. Note that I am differentiating the closed residential femtocells from the public access small cells. Maybe a service such as FaaS or 'Femto as a Service' can help solve this problem. Based on my previous sentences, some of you may say that it should be called Small Cell as a Service (SCaaS) rather than FaaS but unfortunately that term has come to mean something else as can be seen here.
While initially the in-building solutions were mainly for coverage reasons, this may no longer be the only reason. Capacity is also an issue, especially in-building. Small cells can certainly help in the capacity area much more than DAS. Fortunately as most new phones are coming with inbuilt Wi-Fi chipsets and WiFi is available indoors in plenty, the capacity issue may no longer be a problem indoors. Again this is an area where we can have lots of discussions and each party with a vested interest can argue their case.
Here are couple of interesting videos from youtube that explain DAS:
There is also an interesting presentation by NEC in the Small Cell Americas event, embedded below:
Labels:
DAS,
NEC,
Small Cells,
Videos
Friday, 8 March 2013
802.11u, Passpoint and Hotspot 2.0 (HS 2.0)
Came across this interesting Video on Youtube explaining 802.11u that is embedded below.
A bit more detailed presentation on the same topic by Ruckus is also embedded below:
Related posts:
A bit more detailed presentation on the same topic by Ruckus is also embedded below:
Related posts:
- Wi-Fi & Packet Core (EPC) Integration
- Hotspot 2.0, Next Generation Hotspot (NGH), etc.
- Cellular-Wi-Fi Integration - technology and standardization roadmap
Labels:
802.11,
Data Offload,
Videos,
Wi-Fi
Thursday, 7 March 2013
Mobile Service status and Trends in the USA - 2012
Labels:
4G,
Conferences and Events,
FOKUS FUSECO Forum,
Market Analysis,
Trends,
USA
Tuesday, 5 March 2013
Technologies from Mobile World Congress 2013 (#MWC13)
If you liked the Gadgets roundup from yesterday then you would like this one as well:
You can read more about this topic here.
You can read more about this here.
You can read more about this here.
Finally:
You can read more about this topic here.
You can read more about this here.
You can read more about this here.
Finally:
Labels:
Alcatel-Lucent,
Apps Car,
Broadcom,
Carrier Aggregation,
Connected World,
DAS,
Mobile World Congress,
NFC,
Screen and Display,
Videos
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