Meet the new colleague for the crew of the International Space Station (ISS): an autonomous camera drone. The small sphere films the astronauts at work, and this drone could potentially save about 10% of their valuable working time.
An astronaut on the International Space Station (ISS) moves weightlessly from one module to the next. As soon as they have finished one experiment, the next one is waiting. Mission Control gives exact instructions on which steps the astronaut has to perform, one after the other. The astronaut films every move so that the experts on Earth can see in real time whether they are doing everything right. This is sometimes tedious and consumes a lot of time. Valuable time, because the program on the ISS is tightly scheduled. Experiments under conditions of weightlessness give revealing results, and are much sought after by research institutions worldwide.
Drone looks over the astronaut’s shoulder
A possible solution now comes from the Japan Aerospace Exploration Agency (JAXA). It has developed the Int-Ball: a camera drone that shoots videos and photos aboard the Japanese Experiment Module, known as “Kibo”. The drone can move autonomously or be controlled directly from Earth, has a diameter of only 15 centimeters and looks over the shoulder of the astronaut while they work, without distraction.
JAXA estimates that astronauts spend about 10% of their time for the ISS photographing work. The Int-Ball could thus save a lot of time in the future, leaving the astronauts with more time for experiments or repairs. The goal is to reduce the photographing work of the astronauts to zero, and to increase their freedom of movement. Ground-based researchers in turn get the same view as the crew members of the ISS through the Int-Ball.
3-axis reaction wheel ensures stable positioning
Inside the Int-Ball drone, there is a cubic control unit equipped with a 3-axis reaction wheel that controls the drone’s attitude and stabilization. Each reaction wheel is driven by a brushless EC 10 motor from maxon motor under the cubic inside control unit. The control unit in turn is connected to 12 small fans, with which the drone controls its position.
Inside the drone, a navigation camera developed by the Tokyo University, called Phenox, estimates its own position by processing the image of a 3-D marker installed on the Kibo.
The system is still evolving. In fact, JAXA is already planning further improvements to its Int-Ball drone. “We hope that a future version of Int-Ball will also work with the astronauts even outside the space station,” says a JAXA staff member.
After all, maxon drives have consistently shown that they only need small modifications to work reliably in a vacuum.
Editor’s note: This article is a special sponsored submission by maxon motor ag and appears in driven: The maxon motor magazine.