Tag Archives: Vancouver Courier

Democracy, participation, and science culture

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Should citizens have any input into how science research is funded? Dan Hind in his Dec. 14, 2010 article, Time to democratise science, for New Scientist argues yes persuasively (from the article),

THE natural and social sciences exert a huge influence on the ways our societies develop. At present most of the funding for scientific research is controlled by the state and the private economy. Perhaps it is time to look at their track record and consider an alternative.

Science is not, and can never be, disinterested insofar as its objectives are concerned. Decisions to fund this research instead of that research can never be purely technical. Assessments of what is likely to produce interesting or useful knowledge are inevitably alloyed with the desires of those who control the money to develop particular forms of knowledge and with them new resources of power.

Given the mixed track record of the patrons of science it is surely time to consider an alternative. If we are serious about science as a public good, we should give the public control over the ways in which some – and I stress “some” – of its money is spent.

At the end of the article there is this note about the author,

Dan Hind is author of The Return of the Public (Verso), which argues for a new kind of participatory politics

There does seem to be seem sort of trend towards more participatory science as per citizen science or crowdsourced science projects such as Foldit (my Aug. 6, 2010 posting) and Phylo (my Dec. 3, 2010 posting).I’m not sure how much traction participatory science research funding is going to find. That said, there was a UK project run by EPSRC (Engineering and Physical Sciences Research) where members of the public were allowed to ‘vote’ on particular projects. You can read more about the project in the May 25, 2009 news item on Nanowerk describing the grants that were chosen. From the news item,

Ten research grants to help solve some of the biggest health problems facing the UK have been awarded by the Engineering and Physical Sciences Research Council (EPSRC)

The projects focus on developing new techniques for screening and treating major public health issues such as cancer, stroke, AIDS, influenza, MRSA and dementia.

The grants, worth £16.5m, have been given by the EPSRC, acting as the lead Research Council in a cross Research Council Programme called “Nanoscience through Engineering to Application.”

Segue: As for participatory politics (as per Dan Hind), I’ve noticed a local (Vancouver, Canada) backlash response to the notion of public consultations (city government officials want to increase population densities). Oddly enough, when people take the time to participate in a ‘consultation’ they expect that at least some of their comments will have an impact on the decisions that are being made. I gather some experts find this irksome and a challenge to their professional authority.

Back to the main topic: My impression is that the UK enjoys a science culture that is not to be found in Canada—not yet, anyway. There is discussion about public dialogue and engagement in science not just in the UK but elsewhere too that simply doesn’t exist in Canada. Yes, there are a few fragile attempts at creating a science culture here. I’m thinking of the Café Scientifique groups, Canada’s National Science and Technology Week, and the open houses put on by the universities but there really isn’t much.

The Year of Science (a science culture project) was declared in the province of British Columbia (BC) in the fall of 2010. From my Oct. 14, 2010 posting,

To inspire young minds across the province and foster a culture of research and innovation Premier Gordon Campbell today proclaimed the 2010-2011 school year as the Year of Science in B.C.

It’s good to see these kinds of initiatives, unfortunately this particular one is undercut by news such as this (from the Dec. 2, 2010 article, Teacher blasts cuts to Vancouver school science budgets; School science budgets slashed by 56 per cent compared to last year, by Naiobh O’Connor for the Vancouver Courier),

School science budgets were slashed by 56 per cent compared to last year and the district now allots only $4.61 per student each year to cover expenses—far below what Mike Hengeveld, Templeton secondary’s science department head and teacher, argues is adequate.

Limited budgets mean it’s difficult to replace equipment like broken beakers or to buy new equipment. Hengeveld even worries about buying a dozen eggs for a relatively cheap egg drop experiment or what’s needed to grow crystals for chemistry class.

“If I went and bought iodized salt or de-iodized salt and [students] make a solution by heating stuff in a beaker—which I hope doesn’t break—if I spend 15 bucks on salt at the store, I’ve blown three or four students’ worth of budget for them to learn how to grow crystals. It’s neat, but I can’t do that in a science class every day. I would just completely and totally run out of money and that’s just on cheap stuff,” he said.

I’m not trying to fault the Year of Science initiative just pointing out that the initiative is problematic when the science education budget for schools cannot support even simple research projects.

This is a larger issue that I can adequately cover in this posting but I did want to draw attention to some of the fragilities of the Canadian situation (and our own situation in BC) vis à vis creating a science culture and/or democratizing science.

Meanwhile, I read with some envy a report titled, International Comparison of Public Dialogue on Science and Technology,  from a UK organization, Sciencewise-ERC – the UK’s national centre for public dialogue in policy making involving science and technology issues. Canada is not mentioned and I imagine that’s due to the fact that we don’t have any public dialogue to speak of.

ETA Mar.3.11: I made some minor changes for clarity (added Segue: and Back to the main topic: and removed an extra space.

Nanotechnology enables robots and human enhancement: part 4

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In Tracy Picha’s Future of Your Body Flare magazine article (August 2009) , she finishes her anecdote about the paralympian, Aimee Mullins (mentioned in my posting of July24, 2009), with a discussion of her racing prosthetics which were designed to resemble a cheetah’s hind legs.

And they not only propelled sprinters like Mullins to smoke the competition but they began to make their wearers look like threats to other “able”-bodied athletes.

Picha goes on to mention the controversy over Oscar Pistorius another paralympian  who has recently been allowed to compete in the Olympics despite the debate over whether or not his carbon fibre cheetah-shaped racing prosthetics give him an advantage over athletes using their own human legs. If you’re interested in the controversy, you can check it out in this Wired article. Picha’s article is only available in the print version of Flare magazine’s August 2009 issue.

I think the distinctions in the  study I mentioned on Friday (July 24, 2009) between restorative/preventive but non-enhancing interventions, therapeutic enhancements, and non-therapeutic enhancements are very useful for understanding the issues. (Note: I mistakenly identified it as a UK study, in fact, it is a European Parliament study titled, Human Enhancement.) The study also makes distinctions between visions for the future and current scientific development, which given the hype surrounding human enhancement is important. The study also takes into account the political and social impacts of these developments. If you’re interested in the 200 page report, it can be downloaded from here. There’s a summary of the study by Michael Berger on Nanowerk Spotlight here.

So, are robots going to become more like people or are people going to fuse themselves with equipment and/or enhance themselves with chemicals (augmenting intelligence mentioned in my June 19, 2009 posting here) or ???  Actually, people have already started fusing themselves with equipment and enhancing their intelligence with chemicals. I guess the real question is: how far are we prepared to go not only with ourselves but with other species too?

You may want to check out Andy Miah’s (professor Andy Miah that is) website for some more thinking on this topic. He specializes in the topic of human enhancement and he follows the Olympics movement closely. His site is here and he has some slide presentations available at Slideshare and most relevant one to this series is: Bioethics and the Olympic Games: Human Enhancement here.

As for nanotechnology’s role in all of this. It is, as Victor Jones noted, an enabling technology. If those cheetah legs aren’t being made with carbon nanostructures of one type or another, they will be. There’s nanotechnology work being done on making the covering for an android more skinlike.

One last thing, I’ve concentrated on people but animals are also being augmented. There was an opinion piece by Geoff Olson (July 24, 2009) in the Vancouver Courier, a community paper, about robotic insects. According to Olson’s research (and I don’t doubt it), scientists are fusing insects with machines so they can be used to sniff out drugs, find survivors after disasters,  and perform surveillance.

That’s as much as I care to explore the topic for now. For tomorrow, I swing back to my usual beat.