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Lecturer in Engineering Management | Developing Open Engineering | Researching Innovation Process, Strategic Management, Systems Design and Futures Literacy
So this year we will be talking all things Food and (Outer) Space, from consumables sent “up there”, “space microwaves”, baking bread and growing salad on International Space Station and Earth Observation technologies controlling global food production of the future.
To find out more why this matters, here is a little interview I did for the CoDI Blog.
Finally, speaking of freeze drying, there might be some interesting samples to taste…
Though the plan is to have as much fun as possible, there are interesting questions surrounding food production, nutrition science and the role of “consumers”, PS: that is you and me, in all of this.
Most importantly, I will be wanting to hear your opinions about what high-tech might do to food standards, quality and also is end in sight for food poverty.
If you want to find out how this links to my research and teaching, I have written a Teaching Matters blog: CoDI: Is Astronaut Food the Future?
So, join me on 20th August at 8.10pm in the Stand’s New Town Theatre (George Street; Fringe Venue 7) to have your say about having astronaut food for dinner!
Matjaz Vidmar – research student in Science, Technology and Innovation Studies Space Exploration and Industry in Scotland at The University of Edinburgh; science communicator at the Royal Observatory Edinburgh and elsewhere; occasional blogger and writer; involved in many “out-there” ideas, including a project proposing a geostationary space station.
Pippa Goldschmidt – a “recovering Astronomer” with a PhD from The University of Edinburgh/Royal Observatory Edinburgh; worked on Outer Space policy in the UK Government, including puzzling questions such as “What is Outer Space and where does it start?”; now an acclaimed writer about science in fiction. Winner of 2016 Suffrage Science award (for women in science). Author of novels, short stories, poems and essays.
How does your CoDI show fit in with your research?
The exciting CoDI show we are hatching together fits perfectly with Matjaz’s work in trying to use arts to understand the role and importance of Space Exploration and Industry for society at large and Pippa’s creative work on how science and technology inspires and informs artistic expression.
Why is the topic ‘dangerous’?
The topic dares ask a question about what are we humans doing in and to Outer Space? In the not very distant future, humans will for the first time visit another planet (Mars). Later on we will likely establish some interplanetary outposts.
What does this mean for society down here on Earth? By reaching so far away from our planet, are we taking enough care over the possible harm we might cause to other planetary environment and life, and the possible harm we might do to ourselves?
Are Outer Space resources ours for the taking? Even if they are – who are “we”? Will it be whoever first plants the flag or do we come to a broader agreement on sharing?
How do we make sure we don’t choke our own planet in Space Debris, which is bits of disused space craft and rockets already swarming around the Earth and possibly increasing exponentially in the next few years?
Does it rightly have this label? Is the topic unjustly controversial?
If Space Debris starts raining down on Earth, as outlined in one of Pippa’s stories, it will get pretty dangerous pretty quickly! And that is only one of the topics we will explore in the show! It may also get very dangerous for Space Dodos (whatever they are)!
The severity of danger is really in the eyes of the beholder, but we think we need to have an inspired and inspiring conversation about the scientific, technological and societal implications of exploration of Outer Space and how it touches upon other aspects of the everyday life of us Earthlings (as well as Martians!).
Describe your show in three words
Serious Space Fun
Why should the unenlightened Fringe-goer attend your show? What will they learn?
They will learn a bit about what we are up to in Outer Space and what possible futures await us.
There will be examples of how Scotland is “reaching for the stars” and how it contributes to more space waste. We will discuss whether humans are ready for space travel and if so, where you should buy your ticket!
We will talk about science, technology, ethics, politics, achievements, beliefs and imagination, mix them all together and throw in a big measure of drama and humour.
We will read some short stories and see if we can disentangle facts about Outer Space from Science Fiction.
To sum up, we will have some serious fun with some serious issues – and all in the name of science!
However, in the midst of all of this excitement, little time has been given to understanding the bigger picture – why success and failure have been so abundant recently and whether the individual objectives and the collective vision for Space Exploration are being met. Of particular interest are two related streams of development: the recent almost fictional optimism of both private and governmental Space Sector players and the somewhat obvious shortcomings of their plans. Adding to this is the fact that though the two groups seem to be talking to each other, the messages pass by unreceived.
Hence, let’s take a minute for reflection and take those two issues in turn.
Concept art of a Dragon 2 spaceship landing on Mars (C) SpaceX via Wikimedia
The excitement of this announcement reminded me of the initial excitement surrounding Mars One project, another colonization ambition with a commercial interest. Similar doubts were expressed then as well, though after the initial enthusiasm died down, targets were revisited and though the mission remains nominally on track it no longer occupies the centre-stage in the planning of the future of Space Exploration.
It struck me recently that these projects, often dubbed PR exercises, are perhaps more meaningful than cynical attempts at self-promotion for the individual proponents and their respective companies/organisations. And here I do not mean setting goals and establishing future trajectories as such – after all Mars has been a destination for over a century! What such “news” does, however, is setting the new norms and expectations, and the closer we are getting to actually bridge the famous gap of “Mars landing is 50 years away” the more important the content of these outlandish proposals may be.
In many ways, the success of the “news” was as guaranteed from the start as was the failure of the actual proposal – as space exploration easily catches public imagination, it is no surprise that such “news” is gets discussed in both science as well as media mainstream. But even through failure of the actual mission, the concept of space exploration gets re-defined. Most worryingly, it seems, its risk factors.
The Mars One project is a one way ticket from the onset. No return to Earth means that “survival” becomes a very relative term. If you were to die on Mars anyway, does it matter if you die on descent due to catastrophic failure of the underdeveloped or untested live support systems? If SpaceX are shipping hundreds of people to the Red Planet, does it matter if a few die en route of the radiation sickness? The somewhat cavalier attitude to such questions, recently displayed by Musk and to some extent Mars One creator, Dutch entrepreneur Bas Lansdorp, is perhaps precisely the intended effect.
If the risks of the next stage in the Space Exploration are initially presented as sky-high and brushed off as unproblematic, this could pave a way for a completely different risk perception once a much more realistic proposal from a more “down-to-Earth” consortium comes along. How better to do that than to shock the public with a radical (and unrealistic) proposal, focus on messages of hope, rather than fears or legitimate concerns and so when a still radical re-evaluation of acceptable risk comes along, it will be measured not against past standard of actual precedents, such as NASA’ Shuttle programme, where each of the fatal failures stopped all flights for years; but new benchmarks such as risks posed by some of the other more outlandish visions.
In all, this new fictional reality is far more dangerous that is seems, if accepted it assumes human life is entirely expendable in the achievement of a higher goal; if it is not accepted, then missions planned with revised risk levels might come crushing down (to Earth) if or when there is legitimate public outrage at loss of life in Space.
Jack of All Trades, Master of Luck?
Whilst no one could accuse the European Space Agency (ESA) of lowering the standards for acceptable risk in human spaceflight, the recent ExoMars mission’s Schiaparelli lander failure is perhaps exposing another of the Space Sectors’ vices – its narrow-minded competitiveness. ExoMars’ two part mission was to insert an orbiter to study methane gas in Martian atmosphere and put a lander on the ground.
Yes, engineering played a significant part, too (for instance in reducing the jump by shock absorbers), and yes, most missions go wrong in one aspect or another and luck regularly “saves the day”, and another yes: the dearing of the Philae descent was truly inspirational – the fact remains that ESA’s “new norm” of combined missions (orbiter + lander) often hang on a cliff edge (or land underneath), due to technology problems, which were seemingly overcome by their counterparts.
For example, in a stark contrast to Beagle 2 and Schiaparelli lander failure, NASA has recently had four successful landings on Mars, the last one, Curiosity rover, being delivered via an automated rocket-powered sky-crane. In light of these developments, has anyone wondered why Space Agencies around the world, who cooperate on many joined projects, still prefer to develop their own parallel technology for practically every element of space exploration missions (ISS notwithstanding)?
The answer is probably – to show they can! And it is perhaps less to do with technology development and scientific advancement as such and more with proving geo-political points. Whilst the International Space Station truly leads the way in multi-faceted international collaboration, even at times when its founding partners are at loggerheads politically on Earth, many “less challenging” programmes still seem to be deeply divisive, which might be precisely the element making them less successful than they could have been.
Perhaps it is time to pause and reflect on what kind of strategy we want for the future of Space Exploration. And perhaps we should look again at the concepts of risk, safety, and international collaboration – let’s face it, in all of the excitement, we might have got them somewhat wrong.
