Tag: 3G mobile telephony

Should mobile carriers charge a premium for tethering your mobile phone to your computer?

Article

BBC News – Mobile web users at the end of their tether

My comments

This article is pointing to a common practice amongst most US and European mobile-phone carriers concerning the tethering of mobile phones.

What is tethering?

This is where one uses a mobile phone as a wireless 3G modem for another computing device like a laptop computer or a tablet. It can be done wirelessly using a Bluetooth link or the phone operating as a wireless router when certain software is run. On the other hand, it can be done simply by connecting the phone to the PC using a USB cable and running a driver set on the PC.

Why tether than use a separate modem

Tethering has an advantage over using a separate modem to service a device’s data needs. Here, one doesn’t have to manage different data plans for each device – the mobile phone, the tablet computer or the laptop. Instead, they can work with a larger plan that is shared amongst all the devices.

Laptop users also benefit from tethering. This is because, unless they have a 3G-enabled laptop, they only need to think of one device i.e. the mobile phone rather than making sure they have a 3G USB or ExpressCard modem with them.

The common practice with mobile carriers

Most of the US phone carriers like AT&T or Verizon, as well as some of the European carriers treat the tethering as a distinct “wireless-modem” usage compared to using a phone for integrated Web browsing. Here, they insert premiums for this usage in to their tariff charts for this kind of usage and the US carriers even implement software to discourage tethering unless the user subscribes to a plan that specifically allows tethering.

My experience with Telstra

I have maintained a mobile phone service with Telstra since 1997, working through six subsidised-handset contracts over this period.

Last year, before I went to Sydney, I went to a Telstra store to ask about my data options with respect to my then-current phone contract, Here, I asked about whether I should tether my handset to my laptop or buy a 3G “stick” either as an extra service on my bill or as a prepaid service. They suggested that I consider tethering and increase my plan’s data allowance and I had paid for the extra data allowance.

Here, Telstra offered lower-allowance data plans as part of their mobile phone plans but allowed customers to “buy on” more data allowance. Here the tariff charts don’t discriminate between using your phone as a modem for another device and using the phone as its own Internet terminal. This is although they sell a range of 3G “sticks” and “MiFi” devices alongside the mobile phones.

I didn’t need to do anything to the phone to enable tethering and was able to be sure it worked on a “utility” laptop that I had and was intending to take to Sydney. This was before I was lent the Dell Inspiron 15r laptop which I reviewed as part of the trip. Here, I had made sure that the Inspiron had the necessary drivers for the phone before I had left.

Recent steps with some European carriers

Some European carriers have taken the same step that Telstra has been doing for the many years. That is to modify the tariff charts to remove the distinction between tethered (modem) and handset-specific data.

It is to cater for the reality that the same device uses the same bandwidth whether it is for its own use or another device’s use.

Tethering can benefit the carrier as well

Mobile-phone tethering provides a financial benefit for the carriers as well as a utility benefit for the users. Here, it allows the carrier to see increased per-service revenue. Typically this can be brought about by customers increasing their data allowances in the same way that I did – buying on extra data capacity to their plans where the tariff chart allows.

This is although most customers don’t “burn up” their call or data allowances that they pay for. Rather, if they anticipate extra use, they would increase the allowances. One reason is to allow the customers to budget for a predictable amount for their communications.

Tethering and the Internet-enabled car

When one starts to think of Internet-based infotainment like listening to Internet radio while driving or Internet-driven synchronous traffic-status updating for navigation systems, one would think of how they get the data to the vehicle.

I had touched on this previously in the article about Internet radio in the car and have mentioned that tethering a mobile phone to a vehicle’s infotainment system would be one of the pathis. Infact it may be a logical path as Bluetooth is used to facilitate handsfree calling in the vehicle.

Conclusion

What I would see is that tethering shouldn’t be treated different from phone-specific use and that users should be aware of this as an alternative to operating separate modems and accounts.

France’s Free Mobile service to have free femtocells

Article

Iliad aims to boost Free Mobile service with free femtocells – FierceWireless:Europe

My Comments

In France, Illiad’s “Free” telecommunications brand is to use femtocells as a way of increasing its effective coverage. These are devices that provide  mobile telephony coverage within small premises, typically one’s house, but use the Internet service as the backbone to the mobile telephone network.

SFR offers a similar service for their “Neufbox Evolution” customers but this requires that they pay EUR99 per month for this service. Instead Free are offering it as a complimentary service to their “Freebox Revolution” customers. Both of the triple-play platforms will have the functionality integrated in their “n-boxes” which combine a network-Internet “edge” device (router) along with a VoIP analogue telephony adaptor.

For France, this will be seen as relevant for the mobile carriers in that country as they face an uphill battle against a strong NIMBY (Not In My Backyard) culture when it comes to deploying mobile-phone towers. This is more exacerbated as the junk science and fears concerning the side-effects of electromagnetic radiation are held as gospel in some French communities.

Issues that can affect current femto implementations

A limitation I have observed with these “femto” implementations is that they will be designed to serve up to four or five handsets, which may be enough for a household. But for a country that has the cafes and brasseries at its heart, there needs to be reference designs for femtocells that can work in a similar manner to a Wi-Fi hotspot service. Here, the device could support around 10 to 15 concurrent users. The service could support multiple-carrier traffic and provide the host carrier or even the business’s owner with a service bounty for customer’s voice minutes that pass through the femtocell.

Similarly, there can be the issue of assuring coverage across the property for a femtocell setup. It may be of concern with larger properties in areas of poor mobile coverage or properties that have radio obstacles like thick brick walls for example. This could be rectified by establishing a mechanism for “multi-femto” arrangements where the same backbone can serve two or more femtocells with proper seamless handover.

Other technologies

Of course there are other technology setups that may work instead of the femtocell. The classic example may be the use of Wi-Fi technology with EAP-SIM authentication and VoIP call-provisioning systems to provide “indoor” mobile-call service. This will typically require the phone to have integrated Wi-Fi functionality which most smartphones do have; but support seamless handover, quality-of-service and accounting between cellular and Wi-Fi networks.

Another issue that will affect this setup is current-generation Wi-Fi transceivers that are integrated in smartphones is energy use when in full activity. Here this will affect the mobile phone’s battery runtime and typically cause the phone to require charging more frequently. Most likely this will be rectified in the upcoming generations of Wi-Fi transceivers available for these devices.

Conclusion

The French femtocell services offered by Free and SFR are worth examining as far as private femtocell and “quad-play” (TV, telephone, mobile telephone and Internet) services go. Here, it would be worth examining the technology and its relevance for mobile-telephony service goes especially where the NIMBY culture thrives; and identify the real problems where it can run into when using it to augment these service in the public and private realms.

Vodafone Mobile Wi-Fi R201 “Mi-Fi” wireless-broadband router – raising the bar for this class of device.

Carry an instant Windows 7 hotspot in your pocket | NetworkWorld.com Community

From the horse’s mouth

Vodafone Mobile Wi-Fi R201 – Product page

My comments on this device

I have come across most of the small wireless-broadhand Wi-Fi routers and most of them seem to offer the same functionality – working just as a wireless router for wireless-broadband services. But the Vodafone Mobile Wi-Fi R201 has offered more than the typical device of its class.

This battery-operated device has a built-in microSD card and is able to work as a network-attached storage device as well as a router for wireless broadband. It can present the files via three different protocols – SMB/CIFS, HTTP or UPnP AV / DLNA for media files. The latter function is provided for by TwonkyMedia Server which is being integrated in to many network-attached storage devices.

It can be powered from AC power, USB or integrated rechargeable batteries but, due to its small size, it doesn’t have an Ethernet connector for either LAN or WAN (broadband) connectivity. An Ethernet connector being added to the device could allow the unit to become a NAS / wireless access point for an existing network or it could work with a cable or ADSL modem as a router. As well, it is dependent on the Wi-Fi network as the primary connection method.

The unit can work tightly with Windows 7 or with other operating systems and devices that support WPS, especially the PBC “push-to-connect” method. As well, the PSK passphrase for the WPA2 security setup and the SSID are unique to each unit, which makes for better security.

Another feature is that this particular “Mi-Fi” can work alongside the network-connected computers as an SMS send/receive terminal. This is done using a Web form that is part of the Web management interface for this device.

My comments about this device is that it would work hand in glove with a portable Internet radio like the Pure Evoke Flow that I previously reviewed as long as you have a generous data plan on the SIM card for receiving Internet-radio programs. This is intensified by you putting a microSD card full of music or a SlotMusic card (the microSD equivalent of the pre-recorded Musicassette) in this device and using the radio’s DLNA music-player mode to play the music files from the card.

As well, I would recommend that users who buy this device buy a USB car charger that plugs in to the vehicle’s cigar lighter in order to avoid compromising the device’s battery life when they use it in the car. This charger should have a standard USB socket on itself or a microUSB plug that fits the device.

By the way, it is worth noting that this router is now available in the UK and will be rolled out to countries that Vodafone does business in as a name.

Multiple wireless-broadband devices – could a MiFi, tethered smartphone or similar device be the answer

 Is the MiFi Model the Future of Mobile Broadband?: Tech News «

My comments

The common situation is that most customers will end up buying many wireless-broadband-enabled devices over the years. First they will buy a smartphone, then they will buy a wireless broadband modem for their laptop or upgrade their laptop to a model with an integrated wireless-broadband modem. They will also end up buying an Internet tablet like the Apple iPad which has integrated wireless broadhand. This will become more serious as vehicle builders integrate wireless broadband in order to provide Internet-enabled services like Internet radio or always-live mapping.

Multiple service plans – one service plan for each gadget

Whenever this happens, the user signs up to one service plan per device, typically as part of a subsidised-device contract. Here, they end up with many different plans to take care of, which come with many SIM cards and different included-data allowances to take care of.

The carriers like the idea of signing up a customer to multiple plans no matter whether this yields one account or multiple accounts per user. As well device manufacturers like to integrate wireless-broadband technology in to their devices as a way of differentiating particular models in a device series.

But this can become unwieldy for most users because they have to keep track of their plan allowances and contract-available plans. As well, customers may end up using one device more and “burning up” its plan allowance then are on metered use or reduced bandwidth for that device. This may be OK for fixed locations where different usage patterns may occur. As well, there isn’t an incentive in the industry to allow customers to consolidate data plans for multiple devices into one “super plan” with one large allowance and this can  penalise customers who are loyal to one carrier or want to have “all their eggs in one basket”.

Use of “MiFi” routers or tetherable smartphones across multiple devices

A MiFi (wireless router with integrated wireless-broadband modem), a regular wireless router that has support for a USB wireless-broadhand modem “stick” or a 3G/4G smartphone which supports tethering via Wi-Fi, Bluetooth or USB could allow a user to share one plan across multiple devices that you own. The user could then be given the option to bind these devices to a high-capacity service plan so they could use the wireless-broadband service across many other Internet-enabled devices. Another advantage of these abovementioned devices is that they can provide Internet connection to devices like Internet radios that don’t have their own wireless-broadband technology.

For example, a battery-operated Internet radio like the Pure Evoke Flow that I reviewed previously or the Roberts Stream 202 can he linked up to a battery-operated “MiFi” device that is on a generous plan in order to bring the fun of overseas Internet radio in the same manner as a classic portable radio or boom-box. Similarly, a “MiFi” device can provide Internet connectivity a group of laptop computers used on a remote site.

Moving a SIM card between multiple devices

Another way of achieving this could be to buy wireless-broadband gadgets without being bound to a particular service, so you could move a SIM card between the different devices. This includes buying a prepaid USB modem or similar device on a deal where you can pay to unlock it later, perhaps by paying a modest fee. Then you use the service and unlock the device so you can move a SIM card amongst the different devices.

This practice can limit use of smartphones because the SIM cards in these phones are primarily to “present” the phone to the mobile network and connect it to its number.

Conclusion

This issue of users buying devices like notebook / netbook computers and iPad / tablet computers that are equipped with integrated wireless broadband connectivity will lead to user confusion when it comes to managing data plans and accounts. It will become an issue with wireless-broadband carriers and service providers as users want to consolidate their services in to one plan that they can think of without carrying extra devices or fiddling with tiny SIM cards.

Product Review – Nokia N85 3G Multimedia Phone (Symbian S60 version 3)

Introduction

Nokia N85 smartphone I am reviewing the Nokia N85 3G Multimedia Phone, which is part of Nokia’s high-end “N-series” multimedia phones. It has been positioned as a second-tier model in their lineup and is one that can be easily missed in the crowded multipurpose mobile phone market, especially where this market is dominated by the Apple iPhone for personal use and the Blackberry phones for business use.

Software availability

This phone is part of the Symbian S60 Version 3 platform which has a wide availability of software from different places. This means that additional functions can be added “off the Web” by visiting Handango, software providers’ Web sites and S60-themed Web sites as well as the Ovi application store. This puts it as a decent alternative to the Apple iTunes App Store model that is being implemented by the “King Of Cool” with the iPhone.

As a multimedia phone terminal

High-contrast OLED 2

The N85's high-contrast OLED display

The display is based on OLED technology rather than the usual LCD technology which makes it easier to read in all light. The display is very bright and can be seen at extreme angles. Infact, I consider this display the “vacuum-fluorescent display for battery-operated devices” because it has the same brightness and consistency as the vacuum-fluorescent displays used on most home-installed consumer-electronics devices, especially Panasonic or Sony equipment. A disadvantage that this display may have is that this may lead to some pictures, especially some photographs, appearing too saturated and with a bit too much contrast but it may be how the OLED display reproduces the pictures. It may be a boon with text or diagrams such as the Ovi Maps.

The phone’s battery life is very good even when used as a music player as well as a phone. If you use 3G or WiFi data connectivity or the integrated navigation functionality for a significant amount of time, you can compromise the battery life. You can get around this problem while getting the most out of the phone while you are out and about but cannot readily use the supplied charger by investing in an external battery pack such as one of those “AA-battery”-powered mobile phone chargers. The phone’s MicroUSB socket is its power socket, which means that USB=based power devices used along with a micro-USB flylead can become the phone’s external power supply. The only problem with this is that some USB hubs may not be logically seen by the phone as a charger.

The phone as a GPS unit

The phone has integrated GPS but I am using this function with Ovi-based Maps 3.0 with City Guide subscription. For people who do a lot of walking, the subscription is very good value. One thing that I would like to see in the maps data is public paths for use by low-speed traffic like pedestrians, cyclists or horseback riders; but this is an issue with Navteq and the data they provide to Nokia. The GPS function can be used by other S60 3rd Edition location-driven applications like Nokia’s Sport Tracker GPS pedometer / workout diary or Google’s S60 siftware.

The phone as a Walkman

This phone beats the iPhone when it comes to personal-stereo functionality. This is demonstrable in the FM radio and the integrated music player, especially in how you can add music to the phone.

The phone has an integrated RDS FM radio which works only with wired headsets because the headset’s wire also is the radio’s aerial. There are a few discrepancies when it comes to working with RDS-enabled FM stations. If you preset an RDS radio station, the callsign details that are supplied through RDS aren’t used as a default station reference name. Instead, you have to manually copy the station’s name in to the station’s preset details. The phone doesn’t work with the so-called “dynamic RDS” features like TA/TP/EON traffic-information priority – a feature which can be a boon to public-transport users; PTY program-type functionality (including news priority) or RadioText dynamic text display. It does work with Visual Radio, which is an interactive radio service with 3G or WiFi as data backhaul.

The built-in music player is definitely flexible when it comes to handling music content because it works from music held on the microSDHC cards up to 16Gb / card in capacity. These can be exchanged at will in a similar manner to the classic cassette or MiniDisc formats. Similarly, you can enlarge the storage capacity by upgrading the memory card to a higher capacity. It is compatible with the SlotMusic “musicassette” idea that Sandisk put forward; and the MicroSDHC cards can be loaded with music through a “drag-drop” method via the file system and Nokia PC Suite or directly on to the microSDHC card in an SDHC card reader with the use of an SD card adaptor; or the phone can be synced through Nokia PC Suite or Windows Media Player.

As well, you can download content from a DLNA music server that you are connected to via the WiFi network. This yields a lot more flexibility than the Apple iPod / iPhone system when it comes to adding newer music to your portable collection  As far as codecs are concerned, the phone works with MP3, WMA and AAC codecs and can work with WMA up to 192kbps and MP3 up to 320kbps. The music player is operated in a manner similar to most MP3 players and if you make or take a call, the music pauses and resumes from where it left off. There is even the nice touch of the music fading up gracefully when you finish the call.

The integrated camera

The integrated camera is capable of high-resolution pictures and works well as an auxiliary camera if your main digital camera is out of action. It also works very well for video photography and will use the available memory on the microSD card for the footage rather a particular time limit.

One main problem with it is that if you intend to take pictures to send as MMS messages, it will prefer to send the high-resolution pictures which may not work with most mobile phones. To send an MMS, you would have to set the camera to work at a lower resolution before you take the picture. The picture you save would be a low-resolution picture. A point of improvement that could exist would be to have downscaling for MMS images when an image is sent as an MMS message.This is where a downscaled copy of the image is sent out as an MMS image.

Other than that, pictures and video that you take with the built-in camera can be transferred or printed out using PTP, Picthridge or Bluetooth or a PC can import pictures using Nokia PC Suite and any of the picture import functions that are part of Windows.

There is also a low-resolution camera on the front of the phone which comes in handy if you make a 3G videocall, but you can select to use the main camera during the videocall if you intend to show the other caller something rather than yourself.

Connectivity

As far as regular mobile-phone connectivity goes, this phone offers whatever is expected from a high-end mobile phone or smartphone.

The phone has a MicroUSB data and power socket and a 3.5” 4-conductor jack for headphones / AV lineout and headset / audio adaptor use. I use the phone with a Nokia-supplied headset audio adaptor with built-in microphone that is connected to a set of premium headphones so as to gain good-quality sound. The phone can connect to cassette adaptors for use with car cassette players or classic ghetto blasters; either directly or through an audio adaptor.

The main problem I have had with the audio adaptors is their flimsy tie-clips anchored to these adaptors that break under typical use. If this happens to you, I would suggest using either a metal “bobby-pin” or tie-clip; or a regular plastic clothes-peg from the laundry, attached to the audio adaptor with a rubber band. The only problem is that it may look a bit ugly especially in conjunction with formal wear or good headphones; and, for women, may be uncomfortable against the cleavage. To do this, wrap the rubber band around the audio adaptor making sure it isn’t pressing any of the buttons. Then open the clothes-peg, tie-clip or “bobby-pin” and pass one of the jaws of the clip through the rubber band. You then are able to clip the audio adaptor to your collar, lapel or tie with the tie clip, clothes peg or “bobby pin”.

The phone has a built-in PLL-controlled FM transmitter which you can use alongside an FM radio for music playback. If it was able to use this FM-based link for handsfree calling, I wouldn’t use that functionality at all because of having to set up the radio to handle the call every time a call comes in – one step too many.

The Bluetooth functionality is equally comprehensive in that is supports the Headset and Handsfree profiles for handsfree calling; A2DP / AVRCP audio playback profiles for music streaming functionality; and SIM Card Profile and Phone Book Profile for the increasing number of advanced in-car handsfree devices available with newer premium vehicles or on the aftermarket. This certainly means that the phone can partner with all of the good Bluetooth headsets and helmets as well as all of the good in-car handsfree setups.

Existence in the small network

WiFi Networks

The phone’s main method of connection to a small home or business network is through the built-in WiFi transceiver.

This transceiver works with 802.11g WPA networks that work purely to the WPA or WPA2 modes as well as to insecure WEP networks. This avoids routers or access points that are set up for WEP/WPA compatibility modes. For business and other high-security networks, the phone can work with most EAP-based enterprise security network setups; including SIM-based security. The phone can be programmed to work with wireless networks that have their SSID hidden, with use of a “hidden” option when you create an access point. The WiFi radio is very sensitive, which can come in handy whenever you use wireless hotspots.

The main gap the the phone has concerning WiFi-network connectivity is the lack of ability to support the WPS easy-enrolment setup that is becoming the norm for currently-issued wireless routers.

UPnP / DLNA Functionality

The phone works “out of the box” as a media player to the phone’s display and speakers or as a UPnP AV Control Point for pushing content held locally or on anther DLNA media server to another UPnP AV / DLNA Media Renderer device. It can also share content held on its memory card to a DLNA Media Network. Playlist management – can it push the contents of a container to a device?

Mail terminal

The built-in Symbian mail client supports IMAP4 and POP3/SMTP e-mail systems and uses a similar auto-setup routine to Windows Live Mail, where you just supply your fully-qualified e-mail address and password and the phone just works it out. The client is a similar standard to what is integrated in most smartphones but due to 12-key data entry, may be best used for reading e-mail and sending short replies or notes.

Web browsing

The web-browsing experience is similar to most other smartphones and is limited by the small screen. It can be viewed horizontally by selecting a mode to “view horizontal”. Password entry for social-networking and similar pages can be difficult due to the 12-key text-entry method primarily used in this class of phone.

Internet Radio

There is an integrated Internet Radio receiver function that can work with WiFi networks or 3G networks. If you want to use this function with a 3G network, it will need to work on an “all-you-can-eat” data plan if you want to do a lot of Internet-radio listening. The station directory is similar to that offered by Reciva or vTuner; which means having the stations sorted by country or genre. The phone can also “pipe” the Internet radio sound through the Bluetooth A2DP audio stream which allows you to play Internet radio broadcasts through Bluetooth speakers and similar audio accessories.

Conclusion, including the phone’s “cool factor”

This phone will appeal to the mature users who want a fully-functional yet flexible multimedia mobile phone but don’t intend to do a lot of text entry on it. As well, the phone “sets the cat amongst the pigeons” with the OLED display which is different from the LCD-display norm, thus can appeal to those who don’t have good eyesight.

What Nokia needs to do is to offer phones equipped with this OLED display and Symbian S60 to cut in to established smartphone markets like the QWERTY-keypad business phone (whether Blackberry-style or lengthways) or the touchscreen phone.

I have bought this phone on a published 24-month Telstra 3G “cap” contract under the regular terms and conditions for all customers who sign up to the contract. Therefore I am not writing this out of fear or favour.

Showdown on the handheld front

Two years ago, there was very little activity concerning the handheld PDA and smartphone front save for a few devices based on the Symbian S60 / UIQ platform and Windows Mobile (CE) platform.

Then Apple brought their touchscreen-enabled all-singing all-dancing iPhone on the market and businessmen became addicted to Research In Motion’s Blackberry smartphone with push e-mail functionality. Now Nokia (Symbian S60), Google Android and Microsoft have jumped on the same bandwagon as these previous companies. In the case of Nokia and Microsoft, they have released handset designs based on the iPhone-style “touchscreen” model as well as a QWERTY-style keypad. Some have even designed a handset that works sideways and uses a pull-out QWERTY keyboard. As well, Google had built up the Android Linux distribution for smartphone applications and a few manufacturers are releasing smartphones bast on this platform; while Palm, known for the classic “Palm Pilot” PDA, have come back from the dead with the Palm Pre smartphone platform.

This had stirred up things very significantly with the contract-driven high-end smartphone market. 

A new expectation was required for this class of device in the way they operated, the features they came with and how the additional software that extends their functionality is marketed. The devices will have 3G (or better) cellular voice and data interface, 802.11g WPA2 Wi-Fi networking, Bluetooth connectivity while being capable of working as a digital video camera, phone, portable media player, personal navigation unit and Internet terminal at least. Additional programs will be typically sold or provided through a PC-based or over-the-air application store hosted by the device’s manufacturer or platform provider.

As part of this showdown on the smartphone front, handset designers, operating-system and applications developers will start to develop very interesting handsets and handheld applications. The handset designers and operating-system developers will end up at the point which was common for consumer electronics in the 1970s and 1980s where manufacturers pitted themselves against each other to design the best product and as models evolved, the features that were in the top-end model gradually appeared on midrange and low-end models. Mobile service providers will also have to provide cost-effective mobile service plans which consider increased data usage on these devices as they become work and lifestyle information terminals for their users.

This could lead to inclusion of digital radio and TV reception in some of the models; 802.11n Wi-Fi networking; OLED user displays, improved battery runtime on “full-feature” use; and the like.

As far as applications are concerned, developers who write handheld applications, whether operating as a dedicated program or as a front-end to a Web page, will need to make the applications suit the different platforms and application stores. This may be easier for the Microsoft and Symbian platforms because the developer can have the option of providing the application through their Web site, a competing application store like Handango, or a mobile phone operator as well as the official application store for the platform.

There is a risk that certain features will be missing from the smartphone market during the smartphone platform showdown. One will be the support for WPS “quick-setup” functionality for Wi-Fi networks. These devices really need to benefit from this technology – how could you enter a WPA passphrase that is “security-ideal” in to a phone with a 12-key keypad or “picking through” a small QWERTY keypad. As well, most of the desireable wireless routers and access points that are being released at the moment are now equipped with WPS, These phones should have support for WPS, preferably as part of the operating system’s Wi-Fi functionality, but at least as a reliable application that the user downloads to the device for free.

As well, DLNA media-management support should be available across all of the platforms, preferably as a playback and download (to local storage) function and a media control point. Similarly, the phone could be set up to act as a media server so that pictures taken with the phone’s camera can be shown on larger screens. At the moment, Symbian is providing the functionality native to their S60 3rd Edition platform and third parties, mostly hobbyist developers, are developing implementations for use on the Apple iPhone and Windows Phone platforms.

It will be very interesting over these next few model years as we observe mobile phone manufacturers, smartphone operating-system developers, independent application developers and mobile phone service providers grapple with this new reality.