David Parker, director of space science at the UK Space Agency

David Parker - Biography

Director of space science at the UK Space Agency

Education

• 1984 BSc Hons in aeronautics and astronautics at Southampton University
• 1989 PhD in wind tunnel magnetic suspension technology at Southampton University

Career

• 1990 Joined British Aerospace Space Systems as a guidance, navigation and control engineer
• 1991 Promoted to head of liquid propulsion systems
• 1995 Appointed head of guidance navigation and control department at Matra Marconi Space, Bristol
• 1997 Selected for a two-year secondment as assistant director at the British National Space Centre, London
• 2002 Became key account manager for space science, EADS Astrium
• 2004 Appointed director of space science and exploration at the UK Space Agency

Q&A - Wonders of the universe

What area of space science are you particularly interested in at the moment?

Right now, I’m very interested the progress that Reaction Engines is making with its Skylon spaceplane. I’m in lots of discussions with them about how that is going to be taken forward. We’re facilitating discussions with the European air worthiness authorities, thinking about how you operate a spaceplane from the regulation and insurance point of view, because a Mach 5 spaceplane without a pilot [raises] some interesting questions about flying things around in airspace. There are a lot of ’ifs’ with Skylon. But there are some very smart guys working on it, I have to say. As well as some good financial backers. It’s a really exciting project for the future.

Will the UK maintain its involvement in the 2018 Mars Rover mission now that NASA and ESA are combining their efforts into one rover?

We’ve spent a lot of effort and resources in the UK on putting UK scientists and industry at the heart of this project and we’re going to ensure that they stay there. That’s taking up a lot of time with what I’m doing at the moment…NASA has some considerable budget difficulties right now, and that’s put politely. Combining the two will create some fascinating technical challenges, but I’ve some confidence that we’ll end up with rather a smashing mission.

What has been the most exciting moment of your career?

I’d say the moment of landing on Titan on January 2005. I was in the operations centre of the European Space Agency (ESA) on the day we landed, seeing the first images come up. That was just amazing. It was an incredible atmosphere, people who had worked on the project for 15 years finally seeing a new world revealed, especially because it was more dramatic than anyone had imagined seeing rivers and lake basins, not of water, but of methane and hydrocarbons. It was an incredible day.

What would you like to see achieved in space research by the time you retire?

I would like to see materials brought back from other planets for the first time. That’s probably Mars, and also some of the more interesting asteroids. The second thing could be whether we are able to spot signs in the atmosphere of other planets with life, so other planets going round stars. The technology to do that is just on the fringe of being possible. I’d like to think that we would go back with astronauts to the moon and onto Mars. I’m not sure whether I will see that, but, in the long-term scale of humanity, its got to happen eventually.

Why do you think the UK is so strong in space research?

I think it’s something to do with being good inventors. Maybe you could argue it’s because we don’t have huge amounts of money that it forces us to be creative, to look for clever solutions. Surrey Satellite Technology Limited (SSTL) are taking technology used for computers and adapting that for space a perfect example of the different ways of doing things. I was having a conversation with someone at ESA and they said we respect what SSTL do, but we can’t do that. They can spend a lot of money to crush a problem out of existence, rather than spending a lot of time analysing and thinking about alternatives.