SWARM INTELLIGENCE
Small, simple, cheap satellites are being developed to explore and study space in new ways. If we deploy them in vast swarms, these ‘CubeSats’ could change the way we see and protect our planet
Small is beautiful when it comes to the new megaconstellations of satellites.
The roar of engines from the Rockot launch vehicle split the air as it lifted off from the Plesetsk Cosmodrome in northern Russia on 30 June 2003. The rocket was 30m tall and had been chartered by the German company Eurockot Launch Services. But instead of carrying one large satellite into orbit, the Rockot was carrying eight smaller ones.
At the time, no one paid it much attention. After all, it wasn’t the launch of a flagship, billion-dollar mission. Yet in hindsight we can see that’s exactly what made the launch so important – perhaps even a watershed in the way we use and explore space.
Some of the satellites lofted into orbit that day were tiny CubeSats, with dimensions of just 10 x 10 x 10cm. Made of standardised parts, CubeSats are relatively quick and simple to construct. When they were conceived in the late 1990s, they were thought of as educational tools to teach students the basics of how to build satellites. The idea was that the students would take the knowledge they gained on CubeSats and apply it to the large spacecraft of the traditional satellite industry. And while some did just that, others used their experience to take on an entirely different challenge: to use the miniature satellites for something more than just education.
“There are now some very smart people in Europe and around the world who have set themselves a challenge to miniaturise technology such that it can fit into a very small volume. People refer to it as thinking inside the box,” says Roger Walker from the European Space Agency (ESA).
That kind of thinking is starting to pay off. The CubeSat standard is cheap and it’s allowing many more missions to be developed than ever before. And as technology continues to shrink and new techniques are developed, more types of missions become possible – some of which were practically unimaginable until recently, such as satellite swarms.
Satellite swarms are dozens, hundreds or even thousands of tiny spacecraft all working together to do something that’s impossible or impractical with traditional spacecraft. Swarms containing such huge quantities of CubeSats can be envisioned because each one is so cheap to build.
Scott Williams is a programme director at SRI International, who was involved in the early development of CubeSats. He remembers thinking: “Okay, how