Speaking at the Farnborough International Airshow, (right) the Minister for Universities and Science David Willetts, said, “Britain’s first CubeSat will bring major benefits to the UK space industry. Firms will now have a cheap and quick way to test their latest prototypes. Running a competition to see which experiments will go up with UKube1 is an inventive way to ensure it is fitted with the most creative and innovative payload ideas.”
Dr David Williams, (left) Chief executive (Acting) of the UK Space Agency, added, “A CubeSat programme will allow us to fast-track and test some of the UK’s new and cutting-edge space technology and perform unique science at a relatively low cost. These satellites may be smaller than your home computer, but, with the payloads that our skilled scientists will add to them, they are sure to make up in innovation what they lack in size.”
“The launch of the Cubesat Challenge programme is a tremendous opportunity for us," comments Craig Clark, CEO of Clyde Space. "As with all space related business, the best way to market space products is through their successful demonstration in orbit.
"By providing the Cubesat platform, we will benefit immensely from the opportunity and so it is vital to the growth of Clyde Space as a leading CubeSat company.
"I feel also that this programme is vital for the UK’s commercial exploitation and export of CubeSat technology in this rapidly growing market.”
EADS Astrium, Europe's largest space company, is also a key supporter of the CubeSat concept. Over the past three years Astrium has led the definition of a national CubeSat programme with numerous partners from academia and industry.
"CubeSats provide a 'playground for innovation' by enabling us to test new technology that simply could not be tried on major risk-adverse missions. The concept also ensures that we can develop the next generation of space professionals, both in engineering and science, by giving them the ideal skill set to succeed in the industry", stated Dr Ronan Wall, (left) Space Systems Engineer, Astrium.
The small size, low complexity and largely off-the-shelf nature of Cubesats make them both inexpensive and allow them to be launched on a rapid timescale, enabling a high number of launches, more science and more applications.
A number of current CubeSat missions, operated by other countries,
target science applications and especially studies that can be carried out at low-Earth orbits such as space weather studies, atmospheric science, energetic particle studies and spacecraft damage studies. Examples include NASA’s Firefly mission studying the relationship between lightning and mysterious bright flashes of gamma radiation in the upper atmosphere of our planet.
The low-Earth orbit of CubeSats is also ideal for disaster monitoring and Earth sciences, as the lower a satellite orbits, the less time it takes to complete a revolution of the Earth. Constellations of Earth-monitoring CubeSats could be set up far more cheaply than regular satellite constellations and could be used for all kinds of applications, including bush-fire early warning, live maps and Tsunami warning.