Adding to the complexity, Russian docking ports have a male and female version, like an electrical plug and socket. This means that a spacecraft can only dock with a vehicle that has the correct receiving port.

The Station’s docking mechanisms are designed to handle large, 100-tonne craft such as the Shuttle. They grasp a spacecraft as it pushes into the Space Station – like a train coach connecting to its locomotive.

This approach works fine for heavier vehicles but the next generation is gearing up to be smaller and up to 10 times lighter. A 10-tonne vessel would simply bounce of these ports because it does not have enough momentum to engage the locking rings.

Soft Space Docking

To overcome these limitations, a new international standard will work with a lighter generation of space vehicles and is identical for both craft – any two vehicles can dock or be berthed.

Although the connection is defined by the international standard, the mechanism behind the docking ring can be designed in any way – making further cooperation in space easier.

ESA’s own International Berthing Docking Mechanism is the only design that will sense the forces at play between two spacecraft and adapt accordingly, ‘grabbing’ a lighter vessel or absorbing the loads of a heavier vehicle.

The first engineering model is being built by QinetiQ Space in Belgium to test the mechanisms on Earth, with a goal of having the system available for flight by 2017.

The Sierra Nevada Corporation in the US is already investigating collaboration with ESA for its first use on Dream Chaser, a reusable spaceplane that will carry astronauts and cargo to low orbit and land like an aircraft on a runway.