Tag Archives: telecommunications

Lift-off for the new space economy

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Nearly Cloudless Scotland, As Seen From the ISS“Nearly Cloudless Scotland, As Seen From the ISS” by NASA’s Marshall Space Flight Center is licensed under CC BY-NC 2.0

It may come as a surprise to learn that Scotland is on its way to becoming a space industry superpower. The country is home to over 130 space businesses, with a combined annual income of £140m. Glasgow is building more satellites than any other city outside Houston.

Scotland’s booming space sector was the focus of a webinar that was part of last month’s Digital Leaders Week.  Leading the event was Tom Soderstrom, former Chief Technology and Innovation Officer at NASA/Jet Propulsion Lab, and current Global Lead for Chief Technologists at Amazon Web Services (AWS).

Tom explained that Scotland’s increasing involvement in the space sector is part of a wider growth in the ‘space-for-earth’ economy, which includes telecommunications and internet infrastructure, earth observation capabilities and national security satellites.

The factors driving the new space economy

Falling costs for building and launching spacecrafts have attracted greater investment in the commercial space industry. Space hardware is cheaper because it has become much smaller – these days, a miniature satellite (or ‘cubesat’) is typically about the size of a shoebox.

In recent years, the number and range of applications relying on satellite technology has rocketed. From smartphones and GPS devices to broadband access for developing nations, demand for space-based infrastructure has never been greater.

Data is another important driving force behind the new space economy. Scientists and governments need reliable data in order to understand how our planet is changing, and satellites can be used to take vital measurements of things like ice thickness coverage, deforestation, and ocean surface temperatures.

Cubesats are also used for monitoring shipping lanes, keeping a record of crop yields, and for protecting communities. Tom gave an example of an Australian company which uses satellite data for the early detection of wildfires, enabling emergency services to respond before lives and properties are put at risk.

Scotland’s place in space

Scotland is well placed to make the most of the booming space economy. According to Scottish Development International, operating costs for space companies are 40% lower in Scotland than elsewhere in the UK.

Another of the webinar participants, Professor Marion Scott from the department of mathematics at the University of Glasgow, highlighted the importance of Scotland’s skilled workforce. Nearly 20% of  all UK space roles are filled by Scotland’s 7,500 person strong talent pool. And Scottish universities have been quick to fill the gaps in different sectors by providing new courses, training and collaboration.

Meanwhile, Phil Cooper, AWS’ regional manager for Europe, the Middle East and Africa, pointed to the burgeoning reputation of companies in the Scottish space sector. AAC Clyde Space, for example, has become a market leader in providing spacecraft design, satellite operations and data delivery to governments, businesses and educational organisations.

But Scotland’s space boom is far from over. Phil forecasts that another 30 start-ups could be up and running by this time next year.

Another exciting prospect is the arrival of vertical launch capabilities. Five space hubs are currently under development around Scotland, and last year a site in Sutherland received planning permission from Highland Council to develop the UK’s first space port. By next year, it’s hoped that the vertical launch pad near Melness will send its first satellite into space.

Cosmic congestion: the problem of space junk

While there are lots of positives associated with the space economy, it’s not all good news. There are currently almost 7000 satellites orbiting the Earth, and the US National Oceanic Atmospheric Administration (NOAA) says that figure could double in 2021. As space becomes more congested, the problem of debris from old spacecraft and satellites has grown.

There’s a growing need for collaboration and internationally-agreed regulations to ensure that today’s satellites don’t become tomorrow’s space junk.

Tom Soderstrom highlighted research by Fujitsu, in collaboration with Astroscale, the University of Glasgow and AWS, to develop a proof of value to make space debris removal missions more commercially viable using its open innovation technology. The UK government has provided funds for this and other projects aiming to track space junk and monitor the risks of potentially dangerous collisions with satellites or even the International Space Station.

The space economy: tackling climate change

Environmental issues will be dominating the headlines later this year, when Glasgow plays host to the critical United Nations Climate Change Conference (COP26). One of the questions raised at last month’s webinar was how Scotland’s space sector can address the Earth’s climate challenges.

Marion Scott explained that there is now a network of universities and research centres working together to consider some of the climate challenges in advance of the COP26 meeting. At the same time, Marion stressed the importance of earth observation data in helping assess the scale of the problem of climate change.

Phil Cooper agreed that data was vital, and highlighted a competition launched by the Satellite Applications Catapult and the Commonwealth Secretariat in April which aims to stimulate discussion around the development of new concepts relating to ocean sustainability, incorporating satellite data and technologies.

The only way is up: the future of the space economy

In 2019, the World Economic Forum reported that while heavyweights like the United States, China and Russia have the greatest number of satellites in orbit, more and more nations – including the UK, Canada, Germany, Argentina and Luxembourg – have been developing their own space programmes. The Economist recently highlighted the growing number of African countries joining the commercial space race – last month the tiny Indian Ocean island of Mauritius became the latest country to launch its first satellite.

At the conclusion of the webinar, Phil Cooper expressed great optimism about the future of the space-to-earth sector, which can involve not only scientists, but people working in manufacturing, digital, marketing and many other industries. And, as Tom Soderstrom observed, the opportunities being generated by the new space economy are almost unlimited:

“The space bubble will grow faster than even I can imagine!”

Further reading: more articles on innovation from The Knowledge Exchange blog

The 5G arms race: the UK’s strategy to become a global leader in 5G technology

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By Steven McGinty

On 8 March, the UK Government published their strategy for developing 5G – the next generation of wireless communication technologies.

Released on the same day as the Spring Budget, the strategy builds on the government’s Digital Strategy and Industrial Strategy, and sets out the government’s ambition to become a global leader in 5G.

Accelerating the deployment of 5G networks, maximising the productivity and efficiency benefits to the UK from 5G, creating new opportunities for UK businesses, and encouraging inward investment, are the strategy’s main objectives.

If the UK makes progress in these areas, the strategy argues, 5G infrastructure has the potential to become an enabler of smart city technologies, such as autonomous vehicles and advanced manufacturing, and to support the expansion of the Internet of Things – the interconnection of people, places, and everyday objects.

5G Innovation Network

Although the strategy highlights the enormous potential of 5G, it makes clear that 5G technologies are still in development, and that the majority of funding will need to come from the private sector.

To support the growth of a commercial market, the strategy explains, a new 5G trials and testbed programme will be introduced – through a national 5G Innovation Network – to coordinate the development of 5G services and applications. This programme will help government and private sector partners understand the economics of deploying 5G networks, ensuring that technologies can he delivered in a cost-effective way, and enabling best practice to be captured and knowledge disseminated.

The government is investing an initial £16m into the programme (involving partners such as UK Research and Innovation and the Government Digital Service), and has targeted a trial of end-to-end 5G (high speed connectivity without the need for intermediary services) by 2018. In February, Ericsson announced that they had a successful end-to-end 5G trial in Sweden, alongside partners SK Telecom Korea.

Improving regulations

To support the development of 5G, the strategy suggests that there may need to be regulatory changes, particularly in the planning system. As such, the government has committed to reviewing current regulations before the end of 2017, and then to conduct regular reviews, as partners learn more from their 5G trials.

Local connectivity plans

The strategy highlights the important role local regions play in the deployment of mobile technologies, and explains that the government will be consulting with councils on how planning policies can be used to provide high quality digital infrastructure.

However, it also suggests that there may be a case for introducing ‘local connectivity plans’, which would outline how local areas intend to meet their digital connectivity needs. Interestingly, the strategy highlights that evidence, such as local plans, may be taken into account when the government is making funding decisions for local infrastructure projects.

Coverage and capacity, infrastructure sharing, and spectrum

The strategy accepts that the move towards 5G won’t be as straightforward as the move from 3G to 4G. Instead, 5G technology will be developed alongside the expansion of the 4G network.

In addition, the government has accepted the recommendations of the National Infrastructure Commission (NIC)’s ‘Connected Future’ report, which states that unnecessary barriers to infrastructure sharing between telecommunications companies must be tackled. The strategy states that it will explore options for providing a clearer and more robust framework for sharing.

Increasing the available radio spectrum was also highlighted as key to developing 5G technology. The strategy notes that the government will work with Ofcom to review the spectrum licensing regime to help facilitate the development of 4G and 5G networks.

5G strategy’s reception

Natalie Trainor, technology projects expert at law firm Pinsent Masons, has welcomed the new 5G strategy, explaining that:

“…technology and major infrastructure projects will become much more interlinked in future and that the plans outlined can help the UK take forward the opportunities this will present.”

In particular, Ms Trainor sees the establishment of the Digital Infrastructure Officials Group – which will bring together senior staff from across departments – as a way of providing greater awareness and co-ordination of major public projects that involve digital infrastructure. Ms Trainor also hopes that the new group will encourage the Department for Transport and the Department for Culture, Media & Sport (DCMS) to work with industry to develop digital connectivity on the UK’s road and rail networks.

Professor Will Stewart, Vice President of the Institution of Engineering and Technology, similarly welcomes the new strategy but highlights that the funding announced will ‘not come anywhere close’ to the investment required to deliver 5G across the UK. In addition, he also makes it clear that coverage and regulatory change will be vital, stating that:

The biggest challenge for government will be improving coverage for all, as 5G cannot transform what it doesn’t cover. And achieving universal coverage for the UK, outside high-capacity urban areas, will not be affordable or achievable without regulatory change.”

Former Ofcom director and author of The 5G Myth, Professor William Webb, has also applauded the government’s plans, even though he is an outspoken critic of the 5G industry. For Professor Webb, the strategy recognises that we are in the early stages of 5G technology, and that there is still a need to develop 4G networks.

Final thoughts

5G technology provides the UK with the opportunity to become a genuinely smart society. Yet, as the strategy acknowledges, 5G is still in its infancy and the idea of a 5G network across the UK is a long way down the road.

The new 5G strategy includes a number of positive steps, such as listening to the recommendations of the NIC report, and exploring the realities of deploying 5G networks. This cautious approach is unlikely to show any significant progress in the short term, but does provide a focal point for academia, government, and industry to rally around.

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