Os redefines Wi-Fi with launch of Os WiFi

A diagram showing a possible WI-FI network.

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O2 outlined it’s plans recently to offer seamless, fast and free internet for all, in venues across the country. Here is what it said in it’s Press Release:

“O2 announces it’s plans to deploy a market-changing public Wi-Fi platform in the UK, with the launch of O2 Wifi. O2’s premium hotspots will be managed through partnerships with key venue owners and will be open for all customers to access for free, no matter which mobile or broadband provider they are with. O2 is aiming to create a scaled Wi-Fi platform that will be at least double the number of premium hotspots currently offered by BT Openzone and The Cloud combined by 2013.

It will begin rollout immediately by replacing its existing 450 Cloud hotspots in its retail and office estate. It will continue to extend the reach and scale of O2 Wifi through partnerships with strategic venues, to include shops, restaurants, retail outlets and outdoor and indoor locations across the UK. The O2 Wifi service will address the many shortcomings of current public Wi-Fi offerings by being genuinely free to customers, simple, fast and secure. O2’s mobile expertise and insight, allied with an enhanced quality of network connectivity and strong venue partnerships will now deliver a significantly enhanced user experience.

O2 Wifi will introduce a new level of customer engagement, driving increased value for both the Wi-Fi hosting venue and the user by bringing together O2 Wifi with the capabilities of O2 Media and O2 Money to offer the potential to deliver relevant timely content that customers want in a format that suits them. Access to the hotspots will be through a simple sign-up process and will be free to both O2 and non-O2 mobile customers, providing seamless connectivity to a high quality network. The sign up process will be auto provisioned for all O2 customers with Wi-Fi devices by the end of the year.

All hotspots will be premium public hotspots, as opposed to using residential connections with limited bandwidth. O2 has long been a market-leader in provision of public Wi-Fi services across mobile devices, introducing unlimited Wi-Fi access included in iPhone tariffs over three years ago. Through O2’s partnerships with BT Openzone and The Cloud, adoption and growth of Wi-Fi services has been significant with customers seeing real usage benefits. O2’s New Business Development Director Tim Sefton said: “Building networks is a core capability. We have pioneered the explosion of mobile data over the last three years and know better than anyone where people are accessing data.

O2 Wifi hotspots will bring high quality public Wi-fi access to the majority of mobile users. “Only 20% of people who have access to free public Wi-Fi on O2 tariffs actively use it despite the majority of devices being Wi-Fi enabled. We know that Wi-Fi as a technology has great potential and can be a very fast service, however customers are discouraged by barriers which include complexity in activation, uncertainty of where Wi-Fi is free and the variable quality of the current experience. “O2 is integrating new layers of technology into the existing network to enable a seamless and sustained customer experience. We are technology-agnostic and driven entirely by our customers’ needs. We believe that services should be delivered in the best possible way, across multiple networks, supported by different technologies.” In addition, O2 is increasing investment in its mobile network by 25% in 2011.

These investments will allow O2 to offer customers access to a suite of layered technologies, including 2G, EDGE, 3G, 4G, HSPA+ and Wi-Fi, seamlessly, simply and at speed. These technologies will enable customers to access a new range of ‘smarter’ services and experiences. ”

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The Future of Wi-Fi

A photograph of a metro Wi-Fi antenna in Minne...

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Wi-Fi is growing in popularity, according to the WiFi Alliance (but then it would say that, wouldn’t it!). However, it appears to be the case, with increasing numbers of smartphones coming with built-in Wi-Fi and one only has to think of the iPad and the iPhone sales numbers to realise that there is a growing number of wireless devices out there.

So, what can we expect from our wi-fi in the future? Well, 802.11n is becoming more ubiquitous and now the Wi-Fi industry has its sights set on increasing Wi-Fi throughput and range, with upcoming certification programs for Wi-Fi in the 60 GHz frequency band and with Very High Throughput (VHT) Wi-Fi in 5 GHz.

There is also the introduction of Wi-Fi CERTIFIED Wi-Fi Direct™, a certification program for device-to-device communication without a wireless network or access point. This may well see the death of bluetooth.

Certainly, the rapid growth in wireless devices (device shipments expected to reach two billion by 2015 )  means we all need to think  more about security and avoid using unsecured networks whenever possible. It’s thought that some 400, 000 of the 3.5 million hotspots around the world are unsecured and vulnerable to hacking, so beware.

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Thousands of UK Wi-Fi users still vulnerable to hackers

A diagram showing a possible WI-FI network.
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It seems the message still isn’t getting across. A recent report by insurance firm CPP shows some 40,000 wi-fi networks across the UK could be easily hacked, often within a few seconds. What’s most shocking about this finding is that almost half of them had no password at all – that’s nearly 20,000!

These networks are vulnerable to even the most inept hacker. With little more than a laptop, a wireless connection and some easily obtained software all of these networks could be hacked and the owner wouldn’t even know it. That means if they are using their internet connection to do online banking that they could find their logons stolen, followed soon after by their cash. They are also vulnerable to having their online identity stolen, their computers taken over and turned into zombies spewing forth spam and sending more viruses and Trojans around the net.

Another surprising finding of the research is that 82% of those interviewed thought their networks were secure. This just underlines the fact that most of the public have little understanding about Wi-Fi security and are oblivious to the risks they are facing. When one considers that Wi-Fi is very common now on smartphones and other devices (iPods and iPads for example) then this is a very worrying situation indeed. Its difficult to know what can be done about it too as most of the public develop a glazed look whenever you try and explain Wi-Fi security through the use of WPA2 security etc.

One solution would be for manufacturers to design devices with automatic security configuration and the SSID and wireless keys stuck on a label on the device. SKY do this with some of their routers so it’s possible to do it. Until all Wi-Fi devices come automatically configured with WPA2 encryption however, it’s down to the end-user to educate themselves and make sure their devices and networks in general are all properly secured.

Check out my post here for some tips on how to do this. I intend to write another post on how to secure your Wi-Fi network step by step so keep visiting.

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AT&T makes huge investment in wireless networks

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MINNEAPOLIS, Sept 09, 2010 /PRNewswire via COMTEX/ — In just the first six months of this year, AT&T invested nearly $40 million in its wireless network to continue improving customer service in Minnesota.

AT&T is the world’s largest communication company in terms of revenue ($123 billion in 2009). They provide services to 85m customers in the USA and have a presence in virtually every country in the world (220 currently). In terms of WiFi they provide over 125,000 WiFi hotspots around the world. They even provide the wireless networking services on 140 cruise ships!

The fact this sizable investment was just in the US State of Minnesota shows just how much money the company is investing in wireless networks. This can only be a good thing.

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WiFi: Definitions in Plain English

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Computers and computing can be somewhat bewildering for the novice. The terminology can be somewhat technical and ‘geeky’ at times. In view of this, I thought it would be a good idea to have a ‘Plain English’ guide, so here it is.


Sometimes written as WiFi, this is really a trademark of the Wi-Fi Alliance to be used with products and devices that have been approved and meet the required standards for wireless products and devices. The standard is known as IEEE 802.11 and so the next definition is for IEEE. Wireless products and devices basically use radio technology to broadcast and receive signals between devices.The actual name ‘Wi-Fi’ doesn’t actually stand for anything, but was a marketing term coined to be more catchy than IEEE 802.11!

The original standard and specification for Wi-Fi was proposed in 1980 and in May 1985 the U.S Federal Communications Commission made available several radio bands for unlicensed use. Other countries followed its lead and 1991 the foundation of what we now know as IEEE 802.11 was established by NCT/AT&T in Holland.

An interesting story is that it was actually CISRO (Commonwealth Scientific and Industrial Research Organisation), an Australian Government scientific body, that obtained the first patent for its version of wireless data transfer technology in 1192. They successfully obtained a similar patent in the US in 1996, essentially for the mathematical formulae used in Wi-Fi. In 2000, they successfully gave the first practical demonstration of the world’s first wireless LAN (Local Area Network). In April 2009, they successfully sued Intel, Microsoft, HP and Dell for $250 million for infringing their patents.

The advantage of Wi-Fi is that unlike wired networks, you don’t need wires! So, you can use your laptop (for example) at some distance from your router without needing to be physically tethered by a cable (Ethernet – see below) to your router. This means you can work on your laptop in the garden whilst the router sits in the house as normal. However, you can only does this if you a wireless router and a wireless adapter or internal wireless card in your laptop. However, most routers these days are wireless and most laptops come with an internal wireless card.

There are some differences between how Wi-Fi is implemented in different countries. The bandwidth for Wi-Fi signals is divided into channels. In the U.S. there are only 11 channels (1 to 11) whilst in most of Europe there are 13 (1 to 13). In Japan there are 14. However, to further complicate matters, the 2.4 GHz band used by most Wi-Fi devices, there are actually 5 channels. This means that of the channels in the U.S. there are only three channels which do not overlap (1, 6 & 11), whilst in Europe most countries have 4 (1, 5, 9 & 13)! You can change what channel your wireless router operates on by logging into the configuration page in a browser window. This is one way to minimise interference from adjacent networks operating on the same channel. This is quite common as most routers come with a default setting out of the box and so there’s a good chance your neighbours will all have their routers using the same channel as yours. In this situation it best to try each of the non-overlapping channels to see which gives the best signal.


IEEE 802.11 is a set of standards carrying out wireless local area network (WLAN) computer communication in the 2.4, 3.6 and 5 GHz frequency bands. They are created and maintained by the IEEE LAN/MAN Standards Committee (IEEE 802). The base current version of the standard is IEEE 802.11-2007.

The Institute of Electrical and Electronics Engineers or IEEE (read I-Triple-E) is an international non-profit, professional organization for the advancement of technology related to electricity. It has the most members of any technical professional organization in the world, with more than 395,000 members in around 150 countries. [credit:Wikipedia]

Originally established in 1963 following the merger of two organisations, Institute of Radio Engineers (IRE, founded 1912) and the American Institute of Electrical Engineers (AIEE, founded 1884), it publishes the standards for Wi-Fi but does not test actual devices. This led to the forming of the non-profit Wi-Fi Alliance in 1999 to enforce standards and to promote the wider use of wireless local area network technology. An important part of its role is to ensure the backward compatibility of devices whenever the standard is revised and updated. This means that if you use say a 802.11n router it will still work with your old 802.11g adapter.

You will see some devices are labeled as 802.11 b/g, some as 802.11a/b/g and some as 802.11 a/b/g/n. This refers to the standards that it is compatible with and as mentioned above, a 802.11 a/b/g/n device should work with a 802.11 b/g device. Some devices may simply be labeled on the box as Wireless G or Wireless N or MIMO. Wireless G devices are 802.11 a/b/g devices and Wireless N and MIMO devices are 802.11a/b/g/n devices.

Power issues

As well as using power (electricity), wireless devices signal output (the strength of the radio waves transmitted in effect) is measured  in terms of decibels over a reference power emitted by an isotropic radiator (of radio waves) with an equivalent signal strength. What this means is that different kinds of antenna radiate their signals in different patterns. Some are omnidirectional, some are directional. Also, the signal is not truly omnidirectional (like in a sphere around the antenna) but varies along the length and is also perpendicular. This gives a sort of doughnut shaped space around the antenna. If the antenna is vertical, the strongest signal will be found on the same level in a horizontal direction. The power of the antenna is given as a measurement such as 20 dBm (equivalent to 100 mW).

Typically, a wireless router rated as 802.11b or 802.11g will have a range of about 32m (120 ft) indoors and 95m (300 ft) outdoors. In theory, 802.11n routers can exceed that by more than two times. However, all these distances are affected by various factors. These not only include interference from adjacent networks but also other devices that operate n the 2.4 GHz band. These include baby alarms, cordless phones and microwave ovens. Also, physical obstacles such as buildings will affect the signal strength and quality. Some reports even claim that chicken wire in plaster walls can kill wi-fi signals almost completely. As this was a technique used by some Victorian builders, if you live in a Victorian house with walls like these then you are going to have problems.

Some manufacturers, such as hField technologies of the U.S., claim that their devices can provide better signal strength and signal quality through the use of proprietary technology. Certainly, their claims for their Wi-Fire adapter have been backed up in many a review over the years and so far no-one has sued them for the Wi-Fire not living up to the claims of range to 1,000 feet with signal strength being improved to 300% compared to internal wireless cards in laptops. [I must declare my own interest at this point. As the UK distributor of the Wi-Fire I am somewhat biased. I sell it because it lives up to its claims but you should read the reviews and make up your own mind before purchasing the Wi-Fire.]

Another aspect of the power requirements of wi-fi devices is that they are fairly high consumers of electricity and this means that always leaving your wireless card in your laptop on will deplete your battery quicker. The advice is to turn off your wireless card when not needing to connect to a network or browse the internet. Same principle applies to your smart-phone by the way, so if yours comes with wi-fi, turn it off when not needing to use it. This also applies to bluetooth but as this requires less power than wi-fi it will run your battery down less.


I mention Ethernet here as although wireless networks don’t rely on wires (hence the name), wireless routers come with with Ethernet ports and it’s not uncommon to first connect your computer via Ethernet cable to set up your router and especially when setting up security (see below) on it.

Ethernet is a family  computer networking technologies for local area networks (LANs). The name came from the physical concept of the ether.

Ethernet is standardised as IEEE 802.3 (see above under IEEE). The combination of the twisted pair versions of Ethernet for connecting end systems to the network, along with the fiber optic versions for site backbones, is the most widespread wired LAN technology. It has been used from around 1980 to the present, largely replacing competing LAN standards such as token ring, FDDI, and ARCNET.


You should never operate your network without security. The risks have increased since the introduction of Wi-Fi and so its vital to make sure your network is secured. Unlike wired networks, wireless ones broadcast information widely in the vicinity of your devices (router and computer’s wireless card or adapter). This means its possible to someone, with the right knowledge and equipment, to snoop on your network traffic and using software, hack into your system, perhaps stealing passwords, personal information, downloading files from your computers and even using your internet connection to illegally download files or upload viruses etc. A German citizen was recently prosecuted for having an unsecured  wireless network which someone else used to illegally download files from the internet so its important to secure your network.

Security begins with the router itself and once again you will need to login to the configuration page using a web browser (Firefox or Safari or Internet Explorer). Usually you type in an I.P. address in the format 192.168.x.x where it might be for example or Once the configuration page has loaded you will find a menu with various options, one of which will be labeled ‘Security’. There you will find various settings such as SSID and password.


Service set identifier, or SSID, is simply a name that identifies a particular 802.11 wireless LAN. It’s wise not to use something too obvious for your network name, such as ‘familyname’ or ‘name+house number’, e.g. ‘Robertsons‘ or ‘Smith72.’ Likewise, its best to change it from the default as these are widely known. I recommend something boring and meaningless to any would-be hacker such as ‘networkdefault‘or simply ‘default‘.


Passwords are easy to get wrong. Many people use ones that are too easy to crack such as ‘Frido68‘ or ‘heidismith22‘. Usually a minimum of 6 characters is required and it must consist of at least one letter and one number character. However, its best to include characters such as punctuation (! or ; or ? for example) and other symbols (such as @ or % or $) as well. Even better is to use a secure password generator such as 1Password or an extension for Firefox or Safari that will easily generate a secure password and will also store it securely for you. Such secure passwords will look something like 7vbZx4Z&*UZJeccPDF. Not easy to remember but even harder to crack, which is what matters. bear in mind you will need to write this down if you have other computers on the network in order to set them up to use your network but once this is done you should destroy the note.

So, that’s all for now. In another post I will cover some of the other annoying acronyms used when talking about networks such ‘ad-hoc‘ and ‘repeater‘.

If you are interested in reading more about the hField Wi-Fire then check out www.hfield.com and www.newbeltanetechmedia.co.uk

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Wi-Fi Alliance® and WiGig™ Alliance to cooperate on expansion of Wi-Fi technologies

Wi-Fi Alliance logo
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A Press Release announces the joint agreement between two of the main wireless networking bodies to work together on expanding the penetration of wireless technologies into the market. The Press Release states:

Austin, TX and Tokyo, Japan – May 10, 2010 – The Wi-Fi Alliance and the Wireless Gigabit Alliance (WiGig Alliance) today announced a cooperation agreement for multi-gigabit wireless networking. The Wi-Fi Alliance and the WiGig Alliance will share technology specifications for the development of a next-generation Wi-Fi Alliance certification program supporting Wi-Fi® operation in the 60 GHz frequency band. This agreement further encourages the development of products supporting 60 GHz technology to expand existing Wi-Fi capabilities.

Device connectivity in the 60 GHz band will complement the current family of Wi-Fi technologies. Targeted primarily for applications that require gigabit speeds, 60 GHz products are expected to be used in a wide range of high-performance devices. A significant portion, if not all, of these devices are expected to also support traditional Wi-Fi networking in the 2.4 and 5 GHz bands.

“60 GHz device connectivity will be an exciting enhancement to the capabilities of today’s Wi-Fi technologies. It will expand the utility of Wi-Fi, used by hundreds of millions of people every day,” said Wi-Fi Alliance chief executive officer Edgar Figueroa. “From its inception, the WiGig specification was designed to work on a wide variety of devices, making it a compelling input as we begin to define our certification program for 60 GHz wireless.”

“Now that our specification is complete and published, it’s time to set our sights on driving a great user experience through interoperability and certification,” said Dr. Ali Sadri, president and chairman of the WiGig Alliance. “We are happy to work with the Wi-Fi Alliance to extend multi-gigabit capabilities to the Wi-Fi technology portfolio.”

The WiGig Alliance, which shares many member companies in common with the Wi-Fi Alliance, was formed to unify the next generation of multi-gigabit wireless products by encouraging the adoption and widespread use of 60 GHz wireless technology worldwide.

The WiGig specification defines protocols to deliver data transfer rates measured in gigabits rather than megabits and supports a new range of applications and usages. The specification also defines procedures to enable WiGig-compliant devices to hand over sessions to operate in the 2.4 or 5 GHz band. It is expected that a new class of tri-band Wi-Fi CERTIFIED devices will offer multi-gigabit wireless speeds while helping to ensure backward compatibility.

“There is no question that this agreement will enable 60 GHz technology to form an important part of the high-performance future for wireless networking,” said Phil Solis, practice director for Wireless Connectivity at ABI Research. “By cooperating, the groups have set a course for interoperability and backward compatibility that will accelerate the adoption and usefulness of multi-gigabit wireless networking.”

For more information, visit http://www.wi-fi.org/ and http://www.wigig.org/.

So, who are the Wi-Fi Alliance and the WiGig Alliance?

About the Wi-Fi Alliance

The Wi-Fi Alliance is a global non-profit industry association of hundreds of leading companies devoted to the proliferation of Wi-Fi technology across devices and market segments. With technology development, market building, and regulatory programs, the Wi-Fi Alliance has enabled widespread adoption of Wi-Fi worldwide.

The Wi-Fi CERTIFIED program was launched in March 2000. It provides a widely recognized designation of interoperability and quality, and it helps to ensure that Wi-Fi enabled products deliver the best user experience. The Wi-Fi Alliance has completed more than 7,000 product certifications to date, encouraging the expanded use of Wi-Fi products and services in new and established markets.

Wi-Fi®, Wi-Fi Alliance®, WMM®, Wi-Fi Protected Access® (WPA), the Wi-Fi CERTIFIED logo, the Wi-Fi logo, the Wi-Fi ZONE logo, and the Wi-Fi Protected Setup logo are registered trademarks of the Wi-Fi Alliance; Wi-Fi CERTIFIED, Wi-Fi Direct, Wi-Fi Protected Setup, Wi-Fi Multimedia, and the Wi-Fi Alliance logo are trademarks of the Wi-Fi Alliance.

About the WiGig Alliance

The WiGig Alliance was formed to establish a global ecosystem of high-speed and easy-to-use wireless devices that work together seamlessly to connect people in the digital age. WiGig technology enables multi‐gigabit wireless communications among consumer electronics, handheld devices and PCs, and drives industry convergence to a single radio using the readily available, unlicensed 60 GHz spectrum. The organization brings together the world’s leading manufacturers of semiconductors, personal computers, consumer electronics and handheld devices. For more information, please visit http://www.wigig.org/.

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Sony introduce “Share My Connection”

Image representing Sony as depicted in CrunchBase
Image via CrunchBase

Sony have introduced “Share MY Connection” feature that allows you to turn your laptop into a Wi-Fi Hotspot!

Share My Connection™ features at a glance:

Wireless range:

The range is similar to standard Wi-Fi access points commonly used in homes. Note that the actual range may vary based on environmental conditions or objects, such as walls, that may obstruct the wireless signal.


You are in control of your Share My Connection™ network. It is password protected and users require a unique ID that only you can send so they can connect to your network. You also have the ability to change passwords at any time so you can regulate who can connect through your PC on a continual basis.

Easy to use:

To transmit your Share My Connection™ Wi-Fi signal to other users, you simply need to connect to the Verizon Wireless network and then turn on your Share My Connection™ functionality through the Sony SmartWi™ utility. Once you do that, your business colleagues, friends and family will be able locate and connect to your network just as they would connect to any other password protected Wi-Fi network.

Note: Z or Y Series laptops with Verizon Wireless Mobile Broadband (activation required). Note: the full assortment of Z and Y Series laptops with Share My Connection will be available June 20.

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