Why It Matters

Broadband Coverage



Summary

For every postcode, we have broken down the area’s premises according to the speed and decency of their broadband (internet access), as well as whether or not they have ‘Next Generation Access’ (NGA) from fixed broadband.



Definition

Our broadband coverage metric analyses at postcode-level household access to broadband based on its speed, quality and type. Based on these figures, we also evaluate where all postcodes stand relative to the London average.

Dataset Explanation
Percentage of premises in postcode without Decent Broadband coverage from fixed broadband This shows you the percentage of premises in the postcode with Decent Broadband Coverage (10Mbit/s or greater) from fixed broadband.
Percentage of premises in postcode with 30Mbit/s or greater coverage from fixed broadband This shows you the percentage of premises in the postcode with 30Mbit/s or greater coverage from fixed broadband.
Percentage of premises in postcode with 100Mbit/s or greater coverage from fixed broadband This shows you the percentage of premises in the postcode with 100Mbit/s or greater coverage from fixed broadband.
Percentage of premises in postcode with 300Mbit/s or greater coverage from fixed broadband This shows you the percentage of premises in the postcode with 300Mbit/s or greater coverage from fixed broadband.
Quartile of percentage of premises with at least 30Mbit/s coverage from fixed broadband This shows you which quartile your postcode falls in relation to its access to coverage from fixed broadband that provides at least 30Mbit/s (the first quartile signifies that the postcode has equal to or less than 25% of premises with access to coverage from fixed broadband that provides at least 30Mbit/s).
Z-Score (percentage of premises with at least 30Mbit/s coverage from fixed broadband) This shows you the Z-Score for premises with at least 30Mbit/s coverage from fixed broadband so that you can tell how far below or above the overall London average your postcode lies with regards to household access to such coverage.
Percentage of premises in postcode with Decent Broadband coverage from a WISP or Mobile FWA This shows you the percentage of premises in the postcode with Decent Broadband Coverage (10Mbit/s or greater) from a WISP or Mobile FWA.
Quartile of percentage of premises in postcode with Decent Broadband coverage from a WISP or Mobile FWA This shows you which quartile your postcode falls in relation to its access to Decent Brooadbant coverage (10Mbit/s or greater) from a WISP or Mobile FWA (the first quartile signifies that the postcode has equal to or less than 25% of premises with access to Decent Broadband coverage from a WISP or Mobile FWA.
Z-Score (percentage of premises in postcode with Decent Broadband coverage from a WISP or Mobile FWA This shows you the Z-Score for premises with access to Decent Broadband (10Mbit/s or greater) coverage from a WISP or Mobile FWA so that you can tell how far below or above the overall London average your postcode lies with regards to household access to such coverage.
Percentage of premises in postcode with Next Generation Access infrastructure This shows you the percentage of premises in the postcode with Next Generation Access Infrastructure.
Quartile of percentage of premises in postcode with Next Generation Access infrastructure This shows you which quartile your postcode falls in relation to the extent of its Next Generation Access infrastructure (the first quartile signifies that the postcode has equal to or less than 25% of premises with access to Next Generation Access infrastructure.



Why the metric matters from a commercial inhabitant’s perspective

Nearly all our everyday activities are mediated in some way by internet-enabled technology, whether it is watching Netflix at home, communicating with a colleague via video call, keeping track of a fitness regime or booking an appointment at the local doctors. Access to reliable and speedy broadband is an integral part of the functioning of modern urban society. Despite this fact, broadband speeds can vary greatly throughout London, and can have a large impact on the types of individuals and businesses that live and work in the area.

Any modern business will be hesitant to set up an office in an area that offers sub-par broadband speeds, as this can have an incredibly detrimental effect on productivity. High domestic broadband speeds are also becoming increasingly popular with average folks - not just tech-savvy early-adopters. This is because the modern job landscape increasingly consists of freelancers, consultants, and full-time employees who frequently work from home, meaning quick download and upload speeds are highly desirable. This in turn affects the local economy, as jobs (and salaries) depend on reliable broadband speeds, and will affect what types of people find the area desirable to live in.



Why the metric matters from a residential inhabitant’s perspective

Broadband speed is essential to everyday activities as it determines how quickly you will be able to download (take in data from somewhere else e.g. downloading a film) and upload data (send data to another place e.g. posting photos on Instagram) from your home. For example, video calling a family member requires a speed of at least 1.5 MB/s, downloading a HD film to watch off Netflix will take 2 minutes and 20 seconds with a speed of 25 MB/s, and downloading 1000 songs from your Spotify library would take less than a minute with an ultrafast broadband speed of 100 MB/s.

The issue with many broadband providers is that advertised speeds are often very different to the speeds the customer experiences within a given area. By law internet providers must advertise speeds which are consistently available to at least 10% of users of the advertised service, hence they are a vague indication of what speeds you can expect at best. Our broadband metric therefore allows you to accurately see what speeds you can expect within a given neighbourhood area.



General commentary

Broadband speed is intertwined with economic prosperity, community well-being, and environmental quality within both London and the UK as a whole. This is so much so that expert estimates project that at present, every £1 the government invests into broadband, the economy will gain back £20. This is because although nobody knows precisely what the next technological breakthroughs will bring, they will be entirely dependent on the ability to transfer large amounts of data as quickly as possible.

This will include things such as new medical technologies to diagnose and treat patients faster and more efficiently, state-of-the-art manufacturing technologies that can rapidly fabricate complex structures such as entire cars and houses, or even headphones that can translate languages as you hear them spoken. These proliferating technologies will also greatly expand the job market, not only in short-term through the construction and implementation of ulra-fast broadband infrastructure, but through the creation of new markets, industries and communities.

Germany is an excellent example of this, having generated over 300,000 jobs through its national broadband strategy between 2010 and 2014.



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Much of London’s internet is carried along fibre optic cables (Photograph: Wikimedia Commons)



Trivia

In 1995, Newsweek published an article titled ‘Why the Web Won’t Be Nirvana’ mocking the idea that the internet would ever amount to anything significant. It poked fun at the idea that people would one day get news, educational content, and buy airline tickets from a computer. The article has since been published on their website and is still available to view to this day.



History

The founding of the internet owes a great debt to the city of London, as Peter T. Kirstein’s research group at the University College London was responsible for one of the first international connections on an early form of the internet in 1973. However, it was not until 1991 that BT (British Telecommunications) began using the world wide web as we know it today.

A BT network engineer named Clive Salmon used the BT network to establish a link between Ipswich and London, where the first-ever file transfers were made over the internet. The following year dial-up internet was introduced by the UK company Pipex, the first commercial internet provider in the UK. Initially implemented through the use of copper telephone cables, as information proliferated and demands for more content such as online video streaming increased, the speed of data transfer along these cables was not sufficient. To remedy this problem, a number of companies began to implement fibre optic cables - insulated tubes that send information via beams of light, which is much faster than the speed of electricity down a copper wire.

Although fibre optic cables are now widely used throughout London, many broadband providers are still in the process of making their networks fully fibre optic, hence the reason that some people experience variable speeds depending on their area. Furthermore, although you may be paying for a fibre optic service at home, this can mean that only part of the line connecting your phone to the nearest exchange centre is fibre optic cable, with the rest being copper.