Stay connected – even on the Moon – with PTScientists, Vodafone and #MissiontotheMoon
PTScientists teams up with Vodafone Germany to bring mobile data roaming to the surface of the Moon – and the cost needn’t be astronomical!
No need to worry about letting people know that you’ve arrived safely on the Moon – you’ll be able to check in on Facebook and send a selfie from the lunar surface thanks to a new partnership between Berlin-based PTScientists and international (soon to be lunar) mobile communications operator Vodafone.
Pioneering new-space company, PTScientists, is working with Vodafone to deliver the first mobile data (4G LTE) base-station to the lunar surface. Not only will this enable super-fast data access for those of you who make it to the Moon, but it will provide essential communications support their upcoming Mission to the Moon.
“This is a crucial first step for sustainable exploration of the solar system” says PTScientists CEO Robert Boehme.
“In order for humanity to leave the cradle of Earth, we need to develop infrastructures beyond our home planet. With Mission to the Moon we will establish and test the first elements of a dedicated communications network on the Moon.”
Investing in vital infrastructure is always costly, and the additional hurdle of launching equipment into space only adds to the expense. PTScientists have designed their lunar lander, ALINA, to double up as a communications base-station in order to keep costs down.
In addition, using commercially available technology that’s already in a billion mobile devices on Earth, PTScientists are creating a network that will be accessible to future lunar explorers – and maybe even the first settlers on the Moon.
Science on the Moon
PTScientists aim to be the first commercial company to land on the Moon and will be launching their mission next year. They are sending a pair of small, but sophisticated, rovers to explore the final landing site in the US Apollo programme.
“Our rovers are packed with sensors and equipped with high definition cameras” says PTScientists electrical engineer and rover driver Karsten Becker. “We will be collecting a lot of scientific data on the Moon and the high-speed data connectivity that LTE gives us will enable the rovers to communicate with ALINA to send that valuable data back to Earth”.
Efficient data transfer
The benefit of using LTE data connectivity is that it uses drastically less energy than traditional radio communications. This means that large amounts of data can be transferred from the rover, via ALINA, and back to Earth, without the risk of draining the rovers’ batteries, or requiring them to stop each time they have data to transmit. “The less energy we use sending data, the more we have to do science!” says Boehme.
Once the ALINA spacecraft has safely landed the pair of Audi lunar quattro rovers on the Moon, it will act as a base station enabling high speed data connectivity between all vehicles. What’s more, it can also be used as a navigation beacon for future missions landing on the lunar surface.
Mobile on the Moon
“Together with the PTScientists we are embarking on a journey to space, enabling Germany’s first private Moon landing. All whilst establishing the first LTE network in space.” says the CEO of Vodafone Germany, Hannes Ametsreiter.
“With this this step we are laying the groundwork for all future moon missions to come. When Elon Musk sends his first private passengers to Orbit the Moon in 2018 or ESA opens the doors of its Moon village our Vodafone LTE network will already be there. With our contribution, we don’t just want to enable space-based infrastructures, but show that with bravery, pioneering spirit and inventive talent made in Germany, great things can be achieved.”
The consumer market for mobile data on the Moon may be some way off, but PTScientists believe that building versatile infrastructures is the key to making humanity a fully-fledged space-faring species. Not only will they reap the benefit of connectivity during Mission to the Moon, but they are delivering an important first piece of equipment for a future space communications network.