To be Connected: 1B Homes, 342M Cars

While an Infonetics report forecasts 1B fixed broadband connection (by 2019, here), a new report by James Hodgson [pictured], Research Analyst, ABI Research finds that "Connected Automotive Infotainment Systems will exhibit a CAGR of 33.8% over the next 5 years, with a rapid expansion in connected navigation and in-car Wi-Fi driving growth. Developed regions, which accounted for over 60% of shipments in 2014, will account for only 37.4% of shipments in 2020. Indeed, just over half of all systems shipping in 2020 will do so in the Asia-Pacific region.

..Many OEMs have made commitments to equip the majority of their consumer vehicles shipping in 2020 with embedded connectivity. Nevertheless, a significant number of vehicles are still expected to rely on smartphone integration for their connectivity, with shipments of telematics systems supporting such integration on average expected to exhibit a CAGR of 60.6% between 2015 and 2020.

.. it is unlikely systems such as Android Auto, Apple CarPlay and MirrorLink will serve as the vehicle’s sole infotainment system. Rather, they will complement the OEM’s own proprietary system, as is the case with the new Volvo XC90.”

See "Over 342 Million Connected Automotive Infotainment Systems to Ship between 2015 and 2020" - here.

[ABI]: VoLTE (w/IMS) is the Next Big Thing; $30B Market to 2019

   

A new report by Sabir Rafiq [pictured], research analyst, ABI Research finds that ".. as the first wave of LTE deployments achieve coverage, VoLTE is the next big thing. VoLTE runs on IMS, and the market will total over $US30 billion through 2019 as it becomes widespread. 

Leading infrastructure vendors such as Ericsson and Nokia are fully committed to VoLTE and IMS space and equip customers with this next wave in mobile broadband. Similarly, other vendors such as Alcatel-Lucent, Huawei, and Cisco recognize the impact VoLTE and IMS will have on the market. These vendors are active in the VoLTE space by offering credible solutions in order to attract and retain customers ..  IMS mobile core revenue corresponds directly with the popularity of VoLTE”.

".. With the availability of VoLTE smartphones, operators realize benefits with improving quality in voice service, and also top-line growth with value adding services. This leads to increasing VoLTE services in smartphones, with Apple [see "iPhone 6 also supports Voice over LTE (VoLTE)" - here] and high-end Android  [see "New Moto X on Verizon to get Advanced Calling 1.0, run VoLTE - here] devices leading the way. 

[see also: "GSA: 116 MNOs Offer HD Voice - Even on 2G Networks!" - here]

VoLTE will become extremely important in the future and ABI Research believes competitive positioning will lead operators to VoLTE/IMS"

See "Mobile Broadband Operators Scramble for VoLTE, Creating an IMS Land Rush as Ericsson and Nokia Stake Claims on the $US30 Billion Market" - here.

Opera Expands Optimization Beta Test

Opera Software announced in its blog that Opera Max for Android will be available to more beta testers: " In December last year, we opened up Opera Max to a limited number of Android beta testers in the USA to see how you enjoy our new data-savings app.

Well, it seems like many of you like it, and now we want more testers. Starting today, we’re rolling out pre-registration of a public beta version of Opera Max to Android users in the United States and Western Europe.

.. Opera Max compresses videos, photos and text across most of your phone’s apps giving you a lot more mobile data for free. It also gives you better control over how your phone’s apps consume data .. With the help of our new family at Skyfire [see "Opera Buys Skyfire for (up to) $155M" - here], we were able to bring out the first app of its kind that can shrink down mobile video. That means more Instagram and Vine without having to upgrade your data plan".
 

See "Get in line for the Opera Max beta – soon available in the U.S. and Europe" - here.

[Amdocs]: Newer Smartphones are Hungriers (for Data)

Actix (recently acquired by Amdocs) reported some interesting findings from a research it has conducted during 2013 analyzing 100,000 devices in Europe and North America:

• "Smartphones launched in 2013 consumed more than seven times the data of those launched in 2009 and 40 percent more data than 2012 models, according to Actix’s latest research on global mobile users
   
• Apple handsets dominate data use with almost twice the data per session than the average Android phones
   
• Tablet users consume more than twice as much data as smartphones, while MiFi devices drive almost nine times more data consumption"

See "2013’s Smartphones consumed seven times the data of 2009’s" - here.

Citrix: Mobile Ads Generate 1.6% of iOS/ 2.2% of Android Data Volume

Citrix Bytemobile published its "Mobile Analytics Report, November 2013" (here) that "provides insight into subscriber behavior and related factors that affect subscribers’ quality of experience (QoE) with mobile data services".

Main findings:

• Three applications - Media Player, Browser and Google Play - generate 83% of mobile data volume associated with Android devices, with Media Player accounting for more than half. This is similar to application use on iOS devices, as reported by Citrix ByteMobile in Q2 2013. On iOS devices, Media Player, Safari and App Store generated 77% of mobile data volume.
   
• Mobile ads constitute a small fraction of monthly quota -  generated 1.6% of iOS data volume, as compared to 1% in reported in Q1 2012 and 2.2% of Android data volume, as compared to 2% reported in Q1 2012.
   
• The ratio of mobile subscribers receiving image-based ads versus video-based ads is 20-to-1.

• In the Q2 2010 Mobile Analytics Report, ByteMobile found that 90% of mobile video data by volume was associated with the FLV format, which is primarily associated with laptops. Today, the primary mobile video format is MP4, a format which is most closely associated with smartphones. This MP4 traffic represents 67% of global mobile video volume.

NSN Warns MNOs: OTT Outages Increases Signaling (20X!)

A blog post by Gerald Reddig [pictured], Head of Smart Labs Marketing, Nokia Solutions and Networks, reports that "Recent OTT service outages in cloud service provided by Google hit mobile operator radio access networks with an unexpectedly high signaling load. Online services rely entirely on the service availability in large data centers provided by Google, Amazon and Microsoft, for example.

NSN Smart Labs verified that a cloud service outage can trigger smart phones to generate signaling loads up to 20 times greater than normal. This is an important heads up for mobile operators to prevent chain reactions that could lead to network outages .. For the test, NSN Smart Labs utilized one popular high-end Android smart phone. Now multiply that signaling storm by thousands of smart phones simultaneously and radio access networks would definitely be compromised".

See "OTT service blackouts trigger signaling overload in mobile networks" - here.

[Not only Facebook] Verizon Warns: Some Applications Chat too much (1G/Month)

One of my recent posts showed that the latest Facebook application increased "signaling" traffic significantly over the previous version (see "ALU: Signaling Issue with New Facebook" - here, with a comment from ALU providing additional explanation).

Facebook is not alone - some application could consume your monthly quota, even when in background. A Verizon support page warns about several Android applications that "might have serious negative effects on your device". One of the reasons to enter list is "Unexpected high data usage". The page has 13 applications, all games. Most are there since they keep the device from going to sleep mode, shortening batter life.

Some consume "a large amount of data while running in the background":

• Hill Climb Racing - A device left untouched with the app running could use as much as 6.4MB in 24 hours, or 190MB in a 30 day period
   
• Jail Escape - A device left untouched with the app running could use as much as 17MB in a 24 hour period, or more than half a gigabyte in 30 day period (removed from Google Play)

See "High Risk Android Apps" - here.

ALU: Signaling Issue with New Facebook

Lindsay Newell, VP, Marketing Networks & Platforms Group, Alcatel-Lucent, writes in a post to ALU's blog that "On November 15, Facebook released new versions of their mobile app for Android and iOS. Prior to the new release, Facebook signaling and airtime already accounted for 10% and 15% of the overall load on 2G/3G networks, respectively. As users around the world updated and started to use this new version, we quickly noticed a dramatic increase of almost 60% in the signaling load and 25% in the airtime consumed by the Facebook application. During the same period, the number of Facebook users increased by only 4%. Clearly, it is not the swelling of Facebook’s community that intensified the load, but rather the introduction of new Facebook features for mobile users and underlying platform changes .. The effect on service provider networks was significant, driving up overall (total) signaling traffic and airtime consumption by 5-10%".

"Another trend we detected was an increase in popularity of Facebook video traffic — a whopping 350% increase in volume since the November 15th launch — the most growth of all Facebook traffic".

See "New Facebook: not only draining your personal time, but mobile network capacity as well" - here.

Does Android Provide Better Data Usage Control?

DataWiz for iOS

In the 4th episode of their "Reasons no to Buy iPhone5" series , Kevin Smith and William Wei of Business Insider compare the data consumption control iPhone and Android have in the data caps era.

Note that this relates to build-in features of the iPhone, while there are plenty of applications, including by MNOs, that provide the necessary information for iOS for example - "New Mobile Usage Tracking App Predicts Future Usage" - here



See "Android Kills The iPhone When It Comes To Preventing Data Overcharges" - here.

iOS Consumes 100% More Data (Browsing, Facebook) than Android

A new research, "Consumer smartphone usage: data traffic and network usage patterns", by Martin Scott (pictured), Principal Analyst, Analysis Mason shows the "distribution of average traffic generated per minute of web browsing by iPhone users compared with Android users" and finds that "The median traffic rate for Android users was 100–200KB per minute compared to 300–400KB per minute for iPhone users – more than twice the average data consumption .. We observed similar differences in average data rates for use of the official Facebook app on iPhones and Android handsets".

Nevertheless, this may not the full picture, as far as MNOs are concerned. See "Apple Devices Use Wi-Fi, Android Use 3G - Why?" - here and about Android's signaling problems (here, here and here).

See "Web browsing on an iPhone generates twice the per-minute traffic of browsing on an Android smartphone" - here

[NSN]: Chatty Android Phones should Move on to Network Controlled Fast Dormancy

Nokia Siemens Networks continues to provide valuable information on traffic loads caused by signaling (see a related recent post - "VoIP Signaling Crashed NTT DoCoMo; Asks Google to help" - here).

This time, an article by Gerald Reddig (pictured) from Mobile Broadband Marketing, looks at ".. existing 3G smartphones that have been tested in our Nokia Siemens Networks Smart Labs using OTT Voice over IP applications Nimbuzz, GoogleTalk and Skype, the issue seems to be more about different smartphone behavior. This includes the signaling load during a Skype voice call on Samsung´s Android phones compared to Nokia phones and iPhones".

"The Android phones generated 600% more signaling traffic during VoIP calls .. These impressive results have recently convinced a number of device manufacturers using an Android operating system (OS) or a Blackberry OS to step back from proprietary device driven Fast Dormancy and move on to standardized Network Controlled Fast Dormancy .. As always-on OTT applications proliferate, developers and handset manufacturers will increasingly have to look at new ways to reduce signaling load".

Source: Nokia Siemens Networks

[Vendor Interview]: Broadband Systems' Cell-Aware Congestion Management Solution

 
Broadband Systems announced recently a new Ran Congestion Management solution, based on its SLG (Service Logic Gateway) technology - "a combination of a smart routing device and a carrier grade web proxy – both supporting a totally new level of subscriber and session logic".

   

The ".. RAN congestion management technology automatically detects the congested cells and manages them through selective shaping and/or user notification. Based on subscriber type, mobile data bandwidth may be decreased and mobile data access may get limited to a certain segment for the users in a congested cell. The users who are not in a congested cell are not affected at all by the measures taken upon the congested cells and the quality of their experience is not diminished .. The SLG proxy is capable of reducing the bandwidth requirements for video streams in congested cells by transforming the bitrates of video streams. Technically this is done by transforming the HTTP requests from relevant smart phones to the content provider (for example YouTube) so that the smart phone appears to ask for the same video stream – but in lower quality than HD".

Broadband Systems is a young start-up, founded in November 2010, and is based in Denmark. As detecting cell level congestion and identify the subscribers that are connected to it in real-time is a complex mission (see "Sandvine adds Mobility-aware Traffic Management Analytics and Enforcing, with Dynamic Control" - here), I asked Michael Andersen (pictured), the founder, to help me understand the solution.

Q: How do you detect per-cell congestion when placed on Gi interface?

A: We detect cell congestion at the IP traffic level using the established IP standards. Many smart phones support the ECN (explicit congestion notification) bit in the IP header and the solution quantifies these instances. In addition to this, the solution has knowledge of the PDP sessions from the mobile operator infrastructure and calculates the congestion rate of each cell with active sessions.

Q: What is the % of mobile devices, in real life network, that support ECN?

A: Our focus is very much to ensure that our solution is applicable to most networks. iOS devices support ECN and some Android devices appear to support it too. The import detail is that the solution gets enough information about cell congestion if just a percentage of the active devices in a cell support ECN.

Q: How do you get the knowledge of PDP session (to correlate IP flows to Cells)? Do you need RAN based probes? if not, is it applicable to most networks?

A: PDP session information is communicated from GGSN via RADIUS. The basic session correlation is very similar to what a real time data charging system does – except there is cell level logic instead of charging. In order to ease deployment and re-usability, we try to avoid direct communication with RAN level devices for congestion information.

Q: How do you reduce the bandwidth consumption of video traffic?

A: We do not transcode the video streams. Manipulating the headers to ask for lower quality video streams already does a significant difference. From the user perspective this is not very intrusive and from the mobile operator perspective it is more practical. For reference you can compare the bitrate of "Baseline" and "High" quality MP4 encoding used by YouTube.

Q: I understand that there are certain ways to it, depending on the video application/type (Adobe, Apple, MS). So do you support all?

A: Yes, in principle we support them all and can adopt to new ones. This is because our technology has a flexible decision point at this exact spot. The decision about if and how to change a streaming video request can be defined at the solution level by the mobile operator. However, in practice – most of our tests and experiments focus on Youtube traffic. This is because Youtube alone constitute more than 50% of all data traffic in many mobile operators.

Q: You say the solution considers the “subscriber type" – what does it mean?

A: Our solutions are deployed in the mobile operator data center. They have access to the subscriber databases (or INs) and can help the network make decisions that makes sense from a business perspective. Therefore the mobile operator can define logic that selects the order in which cell congestion is handled - for example subscribers with bundled mobile data can get reduced service before users with premium mobile data package.

Q: So, do you interface with PCRF systems? 

A: In a 3GPP based infrastructure our technology, the SLG, has the role of a PCEF that supports policies that go beyond megabit bandwidths and gigabytes quotas. We do have the protocol support and functionality to work with the broad range of PCRF vendors. …and we also have enough industry experience to know that these platforms tend to differ enough for each project to be different anyway ;-)

Q: Do you have live installations already/paying customers? 

A: This is new technology, it is not in production anywhere yet. However, we do have a business relationship with one of the largest mobile operators (headquartered in Europe) and solutions are being discussed with several of their affiliates. We expect live solutions around mid 2012.

Data Shows: "Mobile operating system updates can threaten network performance"

 

Flash Networks released "..data showing that the amount of network bandwidth consumed by mobile operating system updates can threaten network performance, especially if delivered during peak traffic periods. Based on traffic measured during Mobile Windows and Android updates in Europe and North America, it was found that operating system upgrades sometimes consumed even more bandwidth than YouTube videos, creating significant bottlenecks. This phenomenon is expected to be dramatically increased in the near future by the availability of Apple iOS5 over the air (OTA) operating system upgrades".

I wonder why such updates should not be limited, or configured, to be done when the device is connected to Wi-Fi. Caching could also help - although today it is applicable only on the core network therefore does not help the back-haul congested links.

"After one Patch Tuesday, it was discovered that for a European operator the amount of network bandwidth consumed by operating system upgrades rose from 3.7% to 18.2% of total bandwidth, coming second only to YouTube, which burned up 29.2% of network bandwidth. Similar results were discovered in the US where Windows updates increased upgrade traffic from 4.5% to 20%, an increase of more than four-fold". 

 

See "Flash Networks Releases Data Showing Bottleneck Effect of Mobile Operating System Upgrades" - here

VoIP Signaling Crashed NTT DoCoMo; Asks Google to help

    

Caroline Gabriel reports to :rethink wireless that "NTT DoCoMo has added its loud voice to the wave of operator criticism of how smartphones overload carrier networks with their 'signalling storm'. The Japanese cellco recently suffered a major outage in its network, which it is attributing specifically to an Android VoIP application, and more generally to the way Android constantly polls the network, even when users are inactive, generating huge levels of signalling traffic"

While DoCoMo goes to the source of the problem (at least one of them), there are also some ways to address the problem from the network side. Nokia Siemens Networks has been very active in this space. See "NSN: "VoIP Applications Create Huge Signaling Load" - here and "NSN: Android and Blackberry Phones Overload Networks with Signaling" - here. 

"DoCoMo, according to the Nikkei news agency, has demanded that Google rein in the signalling and data loads imposed by Android, particularly the habit of handsets transmitting control signals to the network, and pinging the servers, automatically rather than as-needed. These behaviors support constantly updated apps such as social networks, as well as the rising tide of cloud-based software, in which data and apps are held on the server and constantly sync with the device".

See "DoCoMo demands Google's help with signalling storm" - here.

Optimization Market: Li Ka-shing and Motorola Invest in Onavo

   

Tzahi Hoffman reports to Globes that "Onavo Mobile, which is developing an app to compress data on mobile phones, has raised $10 million in a series B funding round .. The fundraising round was led by Horizons Ventures, the private investment arm of Li Ka-shing together with Motorola Mobility Ventures, the venture capital investment arm of Motorola Mobility Inc".

Onavo (see "Optimization Announcements: Onavo Offers "3rd Party" Compression Service" - here) offers saving in data roaming services to iOS and Android devices, with yet to be announced business model (here). 

Nevertheless, the company sees MNOs as partners, and says that (here) ".. Onavo increases operators’ revenues from data roaming services by bringing down barriers to usage and by offering more flexible data roaming plans, without changing the existing inter-operator agreements".

See "Data compressing co Onavo Mobile raises $10m" - here.

Kineto Wireless Makes Wi-Fi Offload Easier; Used by Orange UK and T-Mobile US

 

Kineto Wireless (see "We are running out of spectrum .. we need Wi-Fi offload" - here) announced "it has added new capabilities to its Smart Wi-Fi Application that enhance the end user service experience when connected to public Wi-Fi networks include .. Smart Connect feature that assists users with accessing hotspots when additional log-on information is required ; Smart Offload that enable selective service offloading to specific Wi-Fi networks based on operator policy and subscriber preference"

".. Smart Wi-Fi is available from leading mobile operators around the world, and the Smart Wi-Fi application is available for Android-based smartphones from leading handset manufacturers such as Samsung, HTC, Motorola, LG, Huawei and ZTE.".

The company says that Kineto’s Smart Wi-Fi technology is behind Orange UK’s “Signal Boost” and T-Mobile US’ “WiFi Calling” (see video below).

See "Kineto Enhances Smart Wi-Fi Application for use in Public Wi-Fi Networks" - here.

NSN: "VoIP Applications Create Huge Signaling Load"

 
Nokia Siemens Networks educates the market and pushes its solution for the mobile signaling problem for long time now, as many operators say it is a major problem both in terms of performance (traffic and long-living sessions) and well as battery draining issue for subscribers. This becomes even more relevant to NSN now, as mobile broadband becomes its main business focus (here).

A new post to the vendors' blog by Gerald Reddig (pictured), Global Marketing Manager, shows how "A European 3G network is benefiting from a 30% signaling traffic reduction, three months after Network Controlled Fast Dormancy (NCFD) was implemented by Nokia Siemens Networks ..  Nokia and Apple decided early on to support NCFD on their smartphones [here], with Blackberry [here] and Android OS device [here] manufacturers like Samsung, LG and Sony Ericsson following suit"

",, Standardized in 3GPP Release 8 [see below], Nokia Siemens Networks’ Network Controlled Fast Dormancy or NCFD aids by acting as a more intermediate state: one with less signaling and faster reconnections"

"Nokia Siemens Networks’ Smart Labs [here] tested popular over-the-top (OTT) VoIP applications running on different smartphone operation systems. One of the results was the huge signaling load caused by VoIP applications in non-NCFD enabled smartphones – 600% more signaling traffic"

See "Faster connections, longer-lasting batteries: A fifth of all smartphones now benefit from Network Controlled Fast Dormancy" - here.

See also - "T-Mobile Netherlands Reduces Data Signaling by 30% with NSN Cell_PCH" - here and "SFR Deploys NSN Cell_PCH Optimization Technology" (here)

GSMA: Fast Dormancy Best Practices

Apple Devices Use Wi-Fi, Android Use 3G - Why?

        

A new service by comScore,  Device Essentials™, provides ".. reporting on digital traffic by device, which includes computers and other devices, defined as mobile phones, tablets, music players, e-readers, gaming devices, and other web-enabled devices".

See "comScore Introduces Device Essentials™ for Measuring Digital Traffic from All Devices, Enabling Optimization of Marketing Strategies and Customer Experience" - here.

One of comScore's recent findings (for the US) shows that Apple's mobile devices (iPhone, iPad) use Wi-Fi services to access the internet, while Android owners (phones and tablets) are using 3G services. The difference is huge, as the table shows.

It seems that AT&T moves (until recently the only 3G provider for Apple devices) - implement usage-based billing (certainly with the problems reported here), deploy free Wi-Fi services (despite what AT&T executive said here) and charge $20/month for tethering (here) were very effective.

Or maybe it relates to the signaling problem? (see "NSN: Android and Blackberry Phones Overload Networks with Signaling" - here).
  

For iPads, it may also depend on the share of 3G devices vs. Wi-Fi only devices. AppleInsider estimated on February that 38% of all iPads (globally) were Wi-Fi only.

See "Over 60% of Apple's first-wave iPad 2 production to be 3G models" - here.

 

NSN: Android and Blackberry Phones Overload Networks with Signaling

     

Nokia Siemens Networks'  "Smart Lab" published a new whitepaper analyzing the problem of signaling traffic generated by smartphone in mobile networks. This keep-alive/chatty/heavy signaling problem is a real issue to both mobile operators (sometime even more than bandwidth usage) and to the customers.

The extensive use of signaling overloads network resources (beyond just bandwidth), drains batteries (both sides do not like that), resulting charges for traffic the subscriber is not aware off (see "Metering and Billing Wireless Data for 20M Subscribers is not Trivial" - here) and more. See more - "T-Mobile Netherlands Reduces Data Signaling by 30% with NSN Cell_PCH" (here) and "StarHub Uses Huawei to Reduce Network Signaling by 83%" (here)

See "Understanding Smartphone Behavior in the Network" - here.

NSN says that while total traffic in Western Europe grew by 65% between December 2009 and July 2010, signaling traffic grew by 177% (without signaling optimization).

   

Nevertheless, while Apple iOS devices (here) are compatible with the 3GPP Fast Dormancy feature, used to solve the problem (and implemented by NSN's Cell_PCH feature), NSN finds that both Google's Android and RIM's Blackberry phones are generating much more signaling than the share of the total traffic, while laptop dongles (generating 60% of traffic) only generate 1% of signaling traffic (see charts) and are not supporting Fast Dormancy correctly.

AT&T Plans to Launch Wireless Consumer Security Service

     


Source: Malicious Mobile Threats report 2010/2011
Juniper Networks

 Up until recently, security was a non-issue for wireless devices (i.e. smartphone, tablets) - mainly due to the small number of connected devices (compared to traditional windows based PCs), their limited capabilities, and the diversity of operating systems. Now, a number of reports indicate that these devices are on the radar (see "At Risk: Global Mobile Threat Study Finds Security Vulnerabilities at all Time Highs for Mobile Devices" - here - and chart).

While security specialist Arbor Networks said recently that "Mobile Operators Lack Visibility and Control over Security threats" (here), we learned that "AT&T Develops Mobile Security"- here.

Sinead Carew reports to Reuters that AT&T ".. plans to launch a wireless security service for consumers next year to help combat a big rise in cyber attacks on mobile devices". 

John Stankey (picture), the head of AT&T's enterprise business, said he had ".. seen a big spike in security attacks on cellphones .. Hackers always go to where there's a base of people to attack ..AT&T would probably launch such services in 2012 .. When you start asking them what's your willingness to pay for a solution, if they're not a little frightened, their willingness to pay is nothing .. It'll take a little time for this in the mass market".

See "AT&T plans consumer security service for 2012" - here.