That's right, because traditionally what happens is that most spacecraft are in something called a geosynchronous arc. If you imagine the earth is spinning on its axis here, if you put a satellite 36,000 kilometres in space, it rotates at the same speed that the earth rotates, so it orbits the earth once a day, the earth rotates once a day, and it looks like its fixed in space. So by far and away, most satellites are in that arc.
The dilemma is that if you're directly below, you can send signals up and down quite easily. As you go up toward the poles, the look angle gets shallower and shallower and shallower, to the point where you can't actually communicate with the north. You can't see what's going on, you can't communicate with the north, so there are no broadband services, there is very little in terms of weather monitoring, and there are no maritime surveillance tools available there.
Our solution is completely different from that. It involves small satellites. They're in very low earth orbit. Instead of 36,000 kilometres, it's 700 kilometres. They're rotating around the earth, and they go around the earth once every hour and a half, dumping that data down on a regular basis.