31 March 2018

Space: Brexit's new frontier

Control centre for the EU's Galileo satellite navigation system.

CHINA'S out of control space station, which is set to come crashing out of orbit this weekend, offers an alarming metaphor for the possible trajectory of Britain’s multi-billion-pound space industry after Brexit.

The sector, which is worth £14 billion a year and estimated to contribute £250 billion to the wider economy, was almost universally dismayed by the result of the referendum. As Richard Peckham, head of trade organisation Ukspace and director of strategy for Airbus Defence & Space, put it: “I don’t think I’ve met anybody in the space industry or academia who wants Brexit.”

Along with broader warnings, about how the sector will cope with the likely impact on the cross-border movement of goods, services, data and people, on which it relies, there have also been specific and immediate threats to the sector. This includes uncertainty over the UK’s continued participation in the EU’s Galileo navigation and Copernicus Earth observation programmes, as well others such as Govsatcom (which deals with communications), IRIS (air traffic management) and SSA/SST (space debris).

Peckham, and others in the sector, have said that the impact of Brexit has already been felt, with foreign customers and suppliers making contingency plans to exclude British firms, as a precaution, in case UK companies become ineligible for future contracts.

His advice to the government has been not to approach negotiations with the EU in an “adversarial manner”, because other countries might see this as an opportunity to take work from the UK, while UKspace also outlined five things it wanted from negotiations with the EU: to retain full access to EU space programmes; to avoid UK industry being marginalised; to retain access to and influence in the collaborative R&D programmes run by the EU; to maintain access to the EU pool of skilled labour; and to keep frictionless access to the EU single market without burdensome customs and administration.

There is no evidence that ministers have been listening to these pleas, but space has certainly been elevated to the higher echelons of government this week, after it was revealed the European Commission had written to the UK to explain that it would be inappropriate to divulge highly sensitive information to a departing member state about post-2019 contracts for the secure element of its Galileo satellite navigation system.

“If the commission shared this information with the UK (which will become a third country) it would irretrievably compromise the integrity of certain elements of these systems for many years after the withdrawal of the UK,” the letter said.

It suggests Britain’s space industry will be locked out of the programme, with its companies frozen out of the next round of long-term contracts relating to the system – which are expected to be awarded in June.

Basic navigation services from the Galileo satellites are available for all, but use of the encrypted, robust Public Regulated Service (PRS) is designed for government-authorised users – such as the military, fire brigades and the police – and is restricted to those inside the EU.

The row suggests that every fear the industry has may be realised. The sector is so closely entwined with Europe that after the UK leaves the EU, it risks being lost in space.

This is not to say that ‘Europe’s’ space ambitions equate to the EU’s, of course. The European Space Agency (ESA) is a separate body, after all, and not part of the EU. Norway and Switzerland are members of the ESA, for example, but not members of the EU. And not all of the EU’s 28 members are members of ESA.

But the EU itself is a major contributor to ESA, principally for the Galileo global navigation satellite system (GNSS), which began operations in December 2016, and the Copernicus Earth observation programmes, and it is likely to become ever more involved in this field.

Airbus UK and other British space companies believe their expertise puts them in a strong position to win more Copernicus business and there will be dozens of new lucrative Copernicus contracts up for grabs in the next two to three years. But the latest row over involvement in Galileo might indicate otherwise.

The UK’s space industry, which provides jobs for around 40,000 people, has been doing well, buoyed by its previous close involvement in European space programmes, and is currently showing growth of around 7% a year. The sector’s success has helped prompt the Space Industry Act 2018, which received Royal assent earlier this month and is aimed at providing a regulatory framework for the commercial launch of satellites from UK spaceports.

Though receiving much publicity this is perhaps more a flight of fancy than anything grounded in near-term reality, and should not be seen as something that would provide anything like an alternative to ESA membership. 

Plans for commercial spaceflight launches from UK spaceports might become more viable in the future with cheaper launch systems, including some of the horizontal launch systems with which entrepreneurial UK space businesses are involved. On the other hand, several of the proposed spaceport locations are in Scotland, which might be affected if the country, which voted to remain in the EU, had a further independence referendum and decided to leave the UK in order to seek membership of the EU.

So what of the future of the UK space programme? As ESA and the EU are separate organisations, the UK will most likely continue with ESA membership as the preferred option for the foreseeable future. Although it is possible that the UK might look for other models, including a home-grown space programme, it is highly unlikely that Britain alone could undertake the breadth of activities in space science and technology that has been possible as a member of the ESA, including human spaceflight.

Stormy waters lie ahead for any organisation linked to Europe and the knock-on effects of Brexit for one of the UK’s most buoyant and future-looking industries and the thousands of people it employs couldn’t be more profound.    


This article by Clive Simpson, a freelance journalist and managing editor of ROOM - The Space Journal, first appeared in The New European newspaper (Easter edition, 28 March -11 April). 

20 March 2018

Return of the Wren

Photo: Clive Simpson

WE'VE arrived at the equinox when the hours of light and dark are the same and it looks like spring might finally be on the way.

Over the short, cold days of winter we’d been diligently feeding our garden visitors - probably a dozen different types of bird each day - all with their own characteristics.

One feathered friend that didn’t visit the feeders was a charming little wren who was content with hoping around the hanging basket and tubs near our window, feeding no doubt on the insects living there.

The wren is one of Britain's most delicate birds, though size does not diminish its claim to be one of the most vocal. Wrens love thickets, hedges, undergrowth and shrubberies. Anything thick, dense and small.

But then came along the ‘beast from the east’ in early March, as the winter blast was labelled in the media and by gleeful weather forecasters.

It as like the door of the Arctic had been left ajar, allowing the cold air to pour out and sweep from the east across ill-prepared little Britain.

The regular birds were aligned on the garden fence and in the bare trees each morning as we pulled back the curtains on the snowy garden.

They were waiting in the bitter cold for their supply of seeds and bread crumbs, vitally important to keep them alive in such conditions.

In all this harsh winter weather our wren was nowhere to be seen, its supply of inspects rudely curtailed by the deep snow and sub-zero temperatures.

How could such a delicate bird - the smallest and lightest of British birds - survive these conditions?

Indeed, for two weeks after the snows and cold had abated we saw no sign of our tiny friend, which we judged must have perished in the hard conditions.
               
But then, three weeks later and the day of the vernal equinox, there was a sudden, brief flicker of movement on the patio beneath the door. An old wizened leaf caught in the breeze perhaps?

No, our wren was miraculously back, busily investigating its local territory and feasting on insects among the brightly coloured pansy flowers, themselves revived by the warming spring sunshine.

31 January 2018

Here comes the sun

Photo: Clive Simpson

THE vibrant colour and noise of summer are absent on this visceral, unkind day at the English seaside.

It started with unrequited optimism, a slip of sunshine at dawn which quickly retreated into murky fog and cold, a typically dour and miserly January day enveloped in clinging mist.

There is no wind, just chill, and the grey sea is eerily serene and flat for the time of year, merging without definition into the distant grey shoreline.

We are standing on a narrow, exposed north-facing balcony of the the Rocket House Cafe, an oddly named building whose shape and design is more maritime than space launch pad.

A rusty tractor hauls two small fishing boats off the beach just below us onto a steep jetty. They are safe now, well above the concrete sea wall which snakes away in gritty grey tones behind them.

It carries the eye towards Cromer’s famous seaside pier with its quaint, rusty-roofed theatre in front of a modern, wood constructed lifeboat house which seems to hang on the very edge of the North Sea.

Warmth and light from inside the busy cafe beckon. The chatter is comforting and masks the bleakness of a seaside town in winter, as we hold closely our memories of summer and look forward to sunny days.

Rocket House Cafe

Photo: Clive Simpson


22 January 2018

Did we fly to the Moon too soon?


UNBELIEVABLY it has been almost a half century since Neil Armstrong and Buzz Aldrin bounced across the lunar landscape for the first time.

Certainly, in terms of human exploration, project Apollo was perceived as a stepping stone to greater things rather than marking a pinnacle of human achievement.       

But the sudden cancellation of the final three missions - despite the fact that the hardware for each had already been built - ably illustrates the financial and political difficulties of sustaining space exploration. Apollo 20 was shelved in January 1970. Eight months later, Apollo 18 and Apollo 19 were also cancelled, making Apollo 17, all the way back in December 1972, the final and most recent human mission to the Moon.

Five decades on and the United States, Europe, Russia, China, Japan and India, along with a handful of private entrepreneurs and firms, all harbour new lunar exploration ambitions.

In October 2017, US Vice-President Mike Pence announced a significant re-direction for NASA - a new road map to create a sustained human presence on the M oon’s surface. It’s a big change for the agency which, for the past decade, has been heading, somewhat tentatively, for a future of deep space exploration and taking humans to Mars.

But words are not enough and to become reality ambitious programmes require ambitious sums of money, along with sustained long-term political commitment.           

Fortunately, NASA’s rapidly maturing new hardware for deep space missions can also be easily re-purposed to take us back to the Moon.


Its giant rocket - known prosaically as the ‘Space Launch System’ (SLS) - and a crew capsule called Orion designed to carry people into deep space, can easily become the mainstay of future lunar missions.               

A so-called cislunar architecture and an associated economy that supports or is part of a return to the Moon offers many opportunities.

Fresh political direction and some of the essential hardware may almost be in place but establishing a sustained presence on the Moon is also going to require the creation of a lunar lander, habitats, life support systems and more.

Long-term funding (at one point, NASA estimated a return to the Moon would cost upwards of US $100 billion) and time (particularly in a political context) are rare commodities in our modern world.

To succeed, space exploration projects still need to be challenging and inspirational, perhaps with a nod towards commercialism.

They must also cover the bases of meaningful international partnerships and private sector
participation, and include the less glamorous aspects of building components, delivering cargo and providing ‘multi-layered’ services.   

Today, the nature of leadership in space is very different to the politically driven aspirations of the 1960s and 1970s. Back then it was more about doing things that no other country could do - and being there first.

Ten years after Apollo 11, the science writer and science fiction author Arthur C Clarke suggested that space travel might be “a technological mutation that should not really have arrived until the 21st century”.

If mankind was not really ready to go to the Moon in the late 1960s and the early 1970s then perhaps now is exactly the right time.


This article was first written by Clive Simpson as the Editorial in the Winter2017/18 edition of ROOM - The Space Journal for which Clive Simpson is also the Managing Editor. For online subscriptions please go to: www.room.eu.com.

17 October 2017

Choosing our destiny

 James Vaughan

SIXTY years ago this month the Soviet Union’s Sputnik 1 became the first artificial satellite to orbit Earth and the world woke up to a new age - the Space Age.

This first satellite was a marker in human history and heralded a massive period of growth in science and technological development, much of it spurred by the subsequent six decades of space exploration.

In its broadest sense the whole sphere of space exploration, its inherent international cooperation and the expanding worldwide business of space has had a massively positive impact on the world.

Despite this, one wonders whether planet Earth has perhaps become a rather gloomy place of late - a world where vested interests often trump the wider common good, a world where optimism might be in short supply?

Like so many inventions and revolutions that have come of age and spawned a new breed of adventurers and entrepreneurs, there are also significant pitfalls and dangers on the road into deeper space.

In his magnum opus De Re Metallica (Of Metal Matters) on natural resources, the 16th century scientist and philosopher Georgius Agricola wrote, ‘Good men employ the elements for good and to them they are useful. The wicked use them badly and to them they are harmful.’

The approach of Agricola, widely regarded as the originator of the experimental approach to science, is perhaps more sensible than either the blind faith of the pure optimist or the destructive cynicism of the pessimist.
 
De Re Metallica (Of Metal Matters)

His renaissance philosophy speaks to many of the challenges society still faces today because many of our most potent technologies - space included - are finely balanced between creation and destruction, between benefit and exploitation.

Whereas sometimes a mechanism might be needed to tip the balance towards good, Agricola’s philosophy also reminds us of the need for wise leadership whether in politics, business, science or technology.

In Earth orbit, for example, we continue to exploit the opportunities provided by satellites for communications, navigation, TV broadcasting, observation and research, whilst at the same time creating a serious debris problem.

Space exploration is inextricably linked to the great reach of human progress and, if our further expansion beyond Earth is not to stall, the considered words of a scientist such as Agricola might just provide guidance enough for our future custody of the space realm.

We might also be wise to heed the solemn and inherent warning in a Buddhist proverb which tells us that,‘to every man is given the key to the gates of heaven, the same key also opens the gates of hell.’

Sputnik, the first artificial satellite, was launched on 4 October 1957.

In the days following the first Sputnik our vision of the future was perhaps more constrained. Today we find ourselves on the threshold of an unimagined space tourism era, eagerly anticipating the first crewed flights to Mars and perhaps even human colonies on the red planet.

At the same time zealous entrepreneurs, and even whole countries, are eyeing the untold mineral wealth of asteroids and the opportunity of a new mining ‘gold rush’ for which the old ways will not suffice.

Neatly juxtaposed with the Sputnik anniversary is the first birthday of Asgardia, the world’s first ‘space nation’ which is also about to mark its presence in orbit with the launch of its
inaugural satellite.

In all of these ventures judicious leadership and governance are vitally important. By the same token, we are all part of the whole and hold individual keys to our own destinies. And, as we recall the anniversary of the first Earth orbiting satellite, it means we can all be part of the future in whichever way we choose.

This article was first published as the Editorial to the Autumn 2017 edition of ROOM - The Space Journal for which Clive Simpson is the Managing Editor.

11 October 2017

Bright lights in the sky

The Chelyabinsk asteroid over Russia in February 2013.
THERE'S been significant worldwide media interest in tomorrow morning’s flyby of asteroid 2012 TC4, which will make an unusually close pass to Earth at a distance of just 43,780 km -  that’s well inside the orbit of the Moon and closer than some satellites.

"We know the orbit of TC4 well enough to be absolutely certain that it won't hit Earth," assures Paul Chodas, manager of the Center for Near-Earth Object Studies (CNEOS) at NASA’s Jet Propulsion Laboratory in California,"but we haven't established its exact path just yet."

The chunk of space rock is about as big (in the range of 10-20 m diameter) as the famous 2013 Chelyabinsk object which hit Earth without warning as the sun  rose over Russia’s Ural mountains on 15 February 2013.

As the space rock skimmed into the atmosphere the early morning sky lit up with a second ‘sun’ as shock waves shattered windows in hundreds of buildings around the wakening city.

It had impacted Earth literally ‘out of the blue’, flying in from the direction of the sun where no telescope could see it - and it took everyone by surprise.

Years later, meteorite hunters are still finding pieces of the ‘Chelyabinsk asteroid’ that rained down after its 17 m-wide body disintegrated in the atmosphere.

The difference with 2012 TC4, which could be up to 30 m wide, is that NASA knows it's coming. At 07:41 CEST (Central European Summer Time) tomorrow morning (12 October) it will pass 43,500 km above Earth’s surface, about 1/8th the distance to the Moon.

The flyby is so close, gravity will significantly alter the asteroid's trajectory before it exits the Earth-Moon system.

To get a better handle on the asteroid's orbit (and possible future encounters), an international network of telescopes will monitor 2012 TC4 as it speeds by.


Pinging the asteroid with its Goldstone telescope, NASA also hopes to learn much about the space rock's physical properties.

This asteroid is too small to see with the naked eye. However, skilled amateur astronomers using small telescopes will be able to observe it. At peak brightness, 2012 TC4 will shine like a 13th magnitude star as it zips through the constellations Capricornus and Sagittarius.

The house-sized space rock does afford space agencies across the globe an opportunity to test some of their planetary defence scenarios that might be needed if Earth was in the path of a more dangerous asteroid.

If an asteroid the size of TC4 or slightly bigger was on course to hit a populated area, agencies such as the ESA and NASA would look to warn people and work with relevant governments to potentially start an evacuation.

If anything signifcantly bigger the TC4 is ever detected, much more drastic action might be needed, including the possibility of trying to deflect any such asteroid before it collides with Earth.

29 September 2017

On Earth as it is on Mars


The UAE (United Arab Emirates) confirmed plans this week to build a city called ‘Mars Scientific City’, a US$135 million (Dh500 million) project that will simulate life on the red planet on Earth.

The announcement was made on the first day of the Annual Government Meetings in Abu Dhabi and also coincided with the International Astronautical Congress (IAC) being held in Adelaide, Australia. Dubai will host the IAC in 2020.

The high-tech city will cover 1.9 million square feet, making it the largest space-simulation city ever built, providing a viable and realistic model to simulate living on the surface of Mars.

The project encompasses laboratories for food, energy and water, as well as agricultural testing and studies about food security in the future.

It will also include a museum displaying humanity’s greatest space achievements, including educational areas to engage young citizens with space and inspire a passion in them for exploration and discovery. The walls of the museum will be 3D printed, using sand from the UAE desert.

"We are seeking a better life and education as well as a stronger economy and the internationally most sophisticated infrastructure for generations to come," said His Highness Shaikh Mohammad Bin Rashid Al Maktoum, Vice-President and Prime Minister of the UAE and Ruler of Dubai.

The Mars Science City project falls within the UAE’s objectives to lead the global scientific race to take people to Mars and is part of the country’s Mars 2117 Strategy which seeks to build the first settlement on Mars in the next 100 years.


The project seeks to attract the best scientific minds from around the world in a collaborative contribution in the UAE to human development and the improvement of life. It also seeks to address global challenges such as food, water and energy security on Earth.

The plan for the Mars Science City project includes an experiential element, which will involve a team living in the simulated red planet city for one year, involving a range of experiments are to be devised, which will lead to innovation around self-sufficiency in energy, water and food.

The Mars Science City structure will be the most sophisticated building in the world and will incorporate a realistic simulation environment replicating the conditions on the surface of Mars.

The city will consist of several domes, with innovative construction techniques providing support for the structures. A team of Emirati scientists, engineers and designers, led by a team from the Mohammad Bin Rashid Space Centre and Dubai Municipality, will carry out the project, in cooperation with internationally renowned architects.

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