Tag Archives: Don’t leave Canada behind

More thoughts on science policy and the Canada 2011 federal election and Peer Review Radio end-of-season broadcast

Working on the Peer Review Radio end-of-season broadcast (April 26, 2011 at 12 noon EST or 9 am PST, listen live here on CHUO, fm 89.1) with Adrian J. Ebsary has been great and given me an opportunity to examine the science policy aspect of the current election campaign a little more closely since I first wrote my post (April 18, 2011) on the subject.

I found another commentary on science policy and election 2011 platforms at exposure/effect blog. (The writer, a scientist, chooses to remain anonymous.) I found this passage from the posting a little curious,

There isn’t a whole lot relating to science or science education in the party platforms, which is perhaps not surprising given the focus on the economy at the moment. The NDP probably have the strongest and most specific plans in this area, while the Green Party appear to have almost nothing; the Conservatives and Liberals fall somewhere in between.

I found the NDP platform to be the least detailed or informative both generally and about science. By the way, the PDF is 28 pages and a surprising number of those pages are filled with images. The Green platform lists 130 pages in its PDF with the Conservative platform at 67 pages and the Liberal platform at 98 pages. ETA April 27, 2011: I stand corrected. Ashartus (pseudonym for blogger at exposure/effect) points out (in the comments) that the Green Party platform is 12 pages and the document I was referencing is their Vision Green document. Within that 12 pages, the Green Party does, as Ashartus notes, offer the least detail about science policy of any party in the 2011 federal election.

Pascal Lapointe of Agence Science Presses/Je vote pour la science has been working to bring science policy into the political discourse for years. For this election campaign, the latest podcast he has prepared is titled, Est-ce que quelqu’un a prononcé le mot « science »? He will also be publishing answers to nine science policy questions that he and various science organizations prepared and asked of the candidates from various political parties. (Pascal has been tireless, he’s also published an April 15, 2011 article, La science des partis, co-written with Rob Annan of the Don’t leave Canada Behind blog (see my blog roll for the link). For more about the issues from Pascal please check the links as you’ll definitely find more about the 2011 election and science policy.)

Now for a very different way of looking at the party platforms, a visual representation of them using wordle. Thanks to Michael Gerskup at Skeptic North for taking the time to create these visualizations of the Conservative, Liberal, NDP, Green, and Bloc Québécois platforms by feeding the text into Wordle. Here’s the 2011 platform visualization for the Conservative party,

Conservative Party Platform for Canada 2011 election (Michael Gerskup/Skeptic North, April 11, 2011 posting)

I don’t see any science in this one or in the others, for that matter. You can find the rest of the visualizations here.

As for what I discovered while working with Adrian on the broadcast, there’s an absence in all of the platforms: emerging technologies. (It seems strange that I missed it initially given my area of interest but I did.) Do any of the candidates (and, for some, future members of parliament) in these political parties have any sense of changes that may be needed in policies and regulations as products of emerging technologies hit the marketplace? What will the social impact be? Will these changes affect education? etc., etc., etc.

I’m not suggesting that any of parties should have a full plan just that there be awareness of emerging technologies. There is awareness in other countries.

Thoughts on nanotechnology and national science convos in Canada

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I was asked two weeks ago (via twitter in late October by @ Connexscience) this question, “What do you think is there value in bringing Nano types together with others?” in the context of my Oct. 28,2010 posting about the newly announced public engagement effort, Connex Science (CS). CS is soliciting comments and participation from the greater Canadian ‘science’ community to a create a national online science community (working title: HUB).

I use the word ‘greater’ to indicate that this intended to engage not just working scientists but students of all stripes, science teachers, engineers, citizen scientists, science communications personnel, science journalists, science museums, artists whose work (in one fashion or another) is oriented to or based in science, science writers (fiction and non fiction), science librarians, etc.

Getting back to the question about nano types and others, I answered, “Yes, there is value.” Then, I started thinking about it. The question itself assumes a nano community of sorts and that’s an interesting proposition.

First off, Canada unlike the US hasn’t created a nanotechnology community as such. The US National Nanotechnology Initiative (NNI) has acted as a hub or organizing principle in a way that Canada’s National Institute of Nanotechnology (NINT) has not. From the NNI’s About page,

The National Nanotechnology Initiative (NNI) is the program established in fiscal year 2001 to coordinate Federal nanotechnology research and development.

The NNI provides a vision of the long-term opportunities and benefits of nanotechnology. By serving as a central locus for communication, cooperation, and collaboration for all Federal agencies that wish to participate, the NNI brings together the expertise needed to guide and support the advancement of this broad and complex field.

The NNI creates a framework for a comprehensive nanotechnology R&D program by establishing shared goals, priorities, and strategies, and it provides avenues for each individual agency to leverage the resources of all participating agencies.

Today the NNI consists of the individual and cooperative nanotechnology-related activities of 25 Federal agencies with a range of research and regulatory roles and responsibilities. Thirteen of the participating agencies have R&D budgets that relate to nanotechnology, with the reported NNI budget representing the collective sum of these. The NNI as a program does not fund research; however, it informs and influences the Federal budget and planning processes through its member agencies.

The enterprise here in Canada has been much more fragmented despite NINT’s existence.From NINT’s About page,

The National Institute for Nanotechnology (NINT) is an integrated, multi-disciplinary institution involving researchers in physics, chemistry, engineering, biology, informatics, pharmacy and medicine. Established in 2001, it is operated as a partnership between the National Research Council and the University of Alberta, and is jointly funded by the Government of Canada, the Government of Alberta and the university.

NINT researchers are focused on the revolutionary work being done at the nano-scale, the world of individual atoms or molecules. The main focus of nanotechnology research is the integration of nano-scale devices and materials into complex nanosystems that are connected to the outside world. The long-term objective is to discover ‘design rules’ for nanotechnology, and develop platforms for building nanosystems and materials that can be constructed and programmed for a particular application.

NINT’s Business Development Office will assist Edmonton-based nanotechnology firms. The goal is to develop a cluster of nanotechnology companies using and producing nanotech. NINT will be the nexus of this cluster by fostering collaboration, providing access to the facility and researcher expertise, and assisting companies with commercialization, licensing and other business activities.

Located in Edmonton, Alberta on the University of Alberta campus, NINT’s 20,000 square-metre building is one of the world’s most technologically advanced research facilities and houses the quietest laboratory space in Canada.

NINT is one of many institutes associated with the National Research Council as opposed to the NNI which sits by itself. Rob Annan in his April 7, 2010 posting at ‘Don’t leave Canada behind’ offers a history and a lively analysis of the organization at large. Here’s an excerpt,

Last week, the Government announced John McDougall’s appointment as the new President of the National Research Council (NRC) of Canada. His appointment provides an opportunity to point something out:

The NRC is a mess.

And the mess of the NRC neatly encapsulates much that’s wrong with Canadian science policy. No direction, no cohesion, multiple conflicting purposes.

What is the NRC?

The NRC was founded more than 90 years ago to advise the government on matters related to science and technology. It evolved into a federal research laboratory with the construction of the Sussex Dr. [Drive] labs in the 1930s, and was the focus of Canada’s research efforts during WWII. Post-war, the NRC expanded and was a major source of Canadian research success, with notable achievements like the invention of the pacemaker, development of Canola and the crash position indicator.

The last time (about 2 years ago) I checked, the NINT (located in Edmonton) was funded 50% federally through the NRC and 50% by the province of Alberta. I’ve tried a number of times to get more information about NINT (I chased Martha Piper, one of the board members, for 2 years and I chased Nils Petersen, director general, for about 4 months and was never able to get a response to my questions about NINT). I mention this because the information I’ve received has come from the province of Alberta naturally, this makes it very Alberta-centric). That situation has changed in the last few months and there’s been slightly more information of general interest (a few twitter messages and one news release, this represents all of the public communication in 2010 so far) coming from NINT.

As far as I can tell, national communication efforts are close to nonexistent and, if there’s no communication, there’s no community. Pushing this further, f you don’t have a community, then you can’t mix with other communities.

There are meetings and conferences but they attract nanotechnology experts who focus on specific areas (such as biocomposites) and any networks that arise are very loose and informal—the kind of thing that tends to die quickly due to lack of attention.

There are a few provincial networks, notably in Alberta, Ontario, and Québec. They usually include businesses, academics (the majority membership), and venture capitalists and are heavily focussed on commercialization.

Amongst academic scientists, there are nanoscientists (sometimes they describe themselves as working in nanotechnology) in Canada but they are often part of a longer-standing academic department, e.g. physics or chemistry or engineering.

Funding for nanotechnology (other than NINT’s) is a grab bag of monies from different ministries and the tricouncil funding agencies (the Natural Sciences and Engineering Council, the Canadian Institutes of Health, and the Social Science and Humanities Research Council). I received a copy(from MP Peter Julian’s office) of the government’s response to his request for information about federal funding for nanotechnology. It’s some 80 pages of data organized in some fashion that I don’t entirely fathom.

This scattered approach to the nanotechnology enterprise may or may not be a good strategy. It’s possible that ‘nanoscience’ or ‘nanotechnology’ will fade into physics or chemistry or engineering as a specialization within the discipline rather than emerging as a distinct specialty. I’ve already seen some discussion along those lines as per this October 3, 2010 entry on Richard Jones’s Soft Machines blog,

Last week I spent a couple of days in Darmstadt, at the second meeting of the Society for the Study of Nanoscience and Emerging Technologies (S.NET). This is a relatively informal group of scholars in the field of Science and Technology Studies from Europe, the USA and some other countries like Brazil and India, coming together from disciplines like philosophy, political science, law, innovation studies and sociology.

Arie Rip (president of the society, and to many the doyen of European science and technology studies) kicked things off with the assertion that nanotechnology is, above all, a socio-political project, and the warning that this object of study was in the process of disappearing (a theme that recurred throughout the conference). [emphasis mine] Not to be worried by this prospect, Arie observed that their society could keep its acronym and rename itself the Society for the Study of Newly Emerging Technologies.

Getting back to the question about ‘nano types getting together with other science types’, for me, has a subtext: how do we identify and reach out to the various science communities in Canada and what value would they see in connecting with each other in a national conversation? I’m going to add another question here, can we get them to use social media publicly? [Note the emphasis] As far as I can tell there is only a very small Canadian science community in the public blogosphere (at the most, there are about one dozen blogs) or on Twitter (am not sure about other social media).

The social media issue is an interesting one. Here’s an excerpt from an article about government agencies (where much science is practiced) and social media by Stephanie Levitz in the Winnipeg Free Press,

For bureaucrats used to filling out forms in triplicate and waiting days for approval to open their mouths, freedom in the form of 140 characters was a novelty.

But then the Clerk of the Privy Council started tweeting.

Since Wayne Wouters began using the social messaging site, his online presence has been taken as a call to thumbs by the public service.

Tweeted one user: “When the Clerk is tweeting, it shows the rest of (the Government of Canada) that it’s ok for the rest of us.”

Well, not quite.

As government departments rush to embrace social media tools such as Facebook, Twitter and YouTube to connect with the public, there are different rules for individual public servants.

Interestingly given the concerns about their scientists being muzzled (my Sept. 16 2010 posting), Natural Resources Canada, amongst federal agencies, is considered a model for using social media,

Many departments are taking their lead from Natural Resources Canada.

The department is widely held up as the gold standard for how, and why, public servants need access to the web.

They started with a wiki, an online site that allows people to post and edit content, with the goal of getting 101 users over 101 days as a test of whether people were interested in using the technology.

At the end of their 101 days, they had 270 users and several hundred pages of content, said Peter Cowan, director of enterprise information management for Natural Resources.

Now they have internal blogs and an internal video channel, all of which helped break down barriers between different sectors of the department. [emphasis mine]

Yes, it’s all internal communication for Natural Resources Canada. So the social media are being embraced from within which begs the question: can scientists and other staff from Natural Resources Canada and other departments, such as Environment Canada and Health Canada said to have muzzles, participate in a public national science convo?

All of that said, I do see signs of life with scientists organizing a science policy conference for themselves two years in a row; interest in citizen scientists; and a Canadian science blogosphere which has recently attracted some new members. I am hopeful this HUB idea will enrich these efforts and allow them to develop deep roots.

As for my speculations about the Canadian nanotechnology scene, if your mileage varies about that or anything else I’ve got here and you feel inclined to comment, please do.

Canadian R & D funding review and intellectual property as the Coalition for Action on Innovation in Canada

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Rob Annan at the Don’t leave Canada behind blog has issued kudos along with some measured comments about the government’s Oct. 14, 2010 announcement of an expert panel to discuss ideas for greater Canadian business innovation and to review Canada’s research and development (R&D) funding for business,

“Through this panel, our government is taking action to improve its support for innovation and to ensure that investments are effective for Canadian businesses and workers,” said Minister of State Goodyear. “We are committed to helping Canadian businesses acquire the tools they need to grow and create new jobs; this panel will help achieve that goal.”

…

“Canadian business spends less per capita on research and development, innovation and commercialization than most other industrialized countries, despite the Government of Canada investing more than $7 billion annually to encourage business R&D,” said Minister Blackburn [Jean-Pierre Blackburn, Minister of Veteran Affairs and Minister of State Agriculture (Quebec)]. “This review will help provide recommendations on how the government can bolster Canadian businesses, create jobs and bring new ideas into the market place for the benefit of all Canadians.”

The panel will conduct a comprehensive review of all existing federal support for business R&D to see how this support could be enhanced to make sure federal investments are effective and delivering maximum results for Canadians.

The Research and Development Review Expert Panel is composed of six eminent Canadians chosen for their experience in business, academia and government as well as their knowledge of R&D and innovation practices and policies.

The panel’s chair, Thomas Jenkins, is Executive Chairman and Chief Strategy Officer of Open Text. The other panel members are Dr. Bev Dahlby of the University of Alberta, Dr. Arvind Gupta of the University of British Columbia, Mrs. Monique F. Leroux of the Desjardins Group, Dr. David Naylor of the University of Toronto and Mrs. Nobina Robinson of Polytechnics Canada.

I’m not familiar with anyone on the panel although I have heard of Open Text and the Desjardins Group.

Rob notes, a type of research which has been excluded from the review, in his Oct. 15, 2010 posting,

So, basic research funding through the tricouncil will be untouched by the review. Which is good, since that isn’t where the problems in our innovation pipeline are to be found (there may well be all sorts of problems with basic research funding, but that’s a task for another panel…). It’s in effective knowledge transfer and business R&D where the problems seem to lie. [emphases mine]

As per Don’t leave Canada behind, a group of business people headed up by John Manley and Paul Lucas, Coalition for Action on Innovation in Canada, announced on October 14, 2010 (the same day as the expert panel was announced) a plan with recommendations to achieve the same goals. (You can download the plan from here.) From Rob’s posting,

A coalition of Canadian business leaders and high-profile academic administrators is working to frame the discussion. The blue-chip membership released a set of recommendations yesterday (the timing not coincidental) for how it wants the government to act. My sense is that their plan includes too much of “more of the same” recommendations – expanding SRED, expanding tax credits for innovation investment – rather than any really innovative ideas.

Like Rob, I too took a very quick look at the plan. I agree that there’s a lot of the ‘same old, same old’ recommendations and what popped out for me was the insistence on this,

Adopt the world’s strongest intellectual property regime.

A robust climate for innovation is only possible if Canada’s regulatory processes encourage the development and launch of innovative products and if our laws ensure that inventors and those who invest in their ideas can fairly reap the rewards of their work. Canada should aim for a reputation as the best place in the world in which to research, develop and bring to market new products and processes. To achieve that goal, it is imperative that Canada seize current opportunities to improve its protection of intellectual property and thereby create a more attractive environment for investment in innovation. Beyond legal and regulatory changes, businesses need consistent, timely and relevant treatment of intellectual property developed at post-secondary institutions. IP policies at institutions and granting agencies, including those dealing with disclosure and licensing, must facilitate collaborative research and encourage innovation. The business and academic sectors should launch a national dialogue aimed at creating a clear and consistent framework for IP agreements between individual companies and institutions.

The word ‘strongest’ in these contexts tends to be a synonym for control by whichever interest holds the patent. Heavy (strong?) control over IP (intellectual property) will mean less innovation and competition. Take for example India and its anti-retroviral drugs (my posting of Oct. 1, 2010 featuring an excerpt from Jenara Nerenberg’s article on the Fast Company website),

… The massive, low-cost ARV [anti-retrovirus] production industry in India has been made possible by the country’s patent laws. “Indian laws did not grant patents on a product, but only on a process to make it, which helped its drug firms to make cheaper versions and improved formulations using alternative methods,” SciDev.net reports.

…

But not everyone in the world sees those laissez faire patent laws as a good thing. India is in ongoing discussions with the World Trade Organization and the EU, but there is fear that increased patent requirements may dismantle the country’s thriving ARV production industry.

Note the difference between ‘strong’ and ‘laissez faire’ and the results in India. Personally, I’d like to see the world’s most balanced and flexible IP regime. If you have ideas about what you’d like to see considered in the review or recommendations of your own, check out Rob’s blog and contribute to his comments section where you’ll find some of my comments (once they’re moderated).

Grassroots science organizing in the UK

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There’s a lot of concern about impending cuts for funding science in the UK as signaled by Vince Cable’s (UK Secretary of State – Department for Business Innovation & Skills Sept, 8, 2010 speech), excerpted from Cable’s speech Science, Research and Innovation on the Dept. for Business Innovation & Skills webpage,

Over the next few weeks and months, major decisions will be made on Government spending priorities as part of a wider move to stabilise the country’s finances and rebalance the economy. They will help to define what we value as a nation and the direction in which we want to head. Investing in science and research is a critical part of that. I cannot prejudge the outcome but I know that my colleagues, including at the Treasury, value the contribution of UK science.

I have been arguing for years my concern over the way the British economy was distorted. Money borrowed for property speculation rather than productive investment and innovation. Too many top performing graduates heading straight for high finance rather than science and engineering.

It was clear to me and my colleagues that the British economy was becoming increasingly unbalanced in the short term, as the mountain of household debt built up. We were also unprepared for a long-term future where we need to earn our living in the world through high-tech, high-skills and innovation.

…

There is a school of thought which says that Government commitment to science and technology is measured by how much money we spend. Money is important both for the quality and quantity. But it is an input, not an output, measure. The question I have to address is can we achieve more with less?

In deciding priorities, there is a limit to how much I can dictate the course of events. Nor do I wish to. Research priorities and technical priorities are set at arms length from Government, and through peer review. That is right. Yet the Government spends £6bn a year supporting science and research and it is right that I should speak about strategic priorities.

I feel I should start by registering a personal interest when it comes to science. I’m one of few MPs to have at least started a science degree – well, it began as natural science and ended up as economics.

My constituency, Twickenham, is one of the major centres of scientific enquiry. It contains the National Physical Laboratory, a world-leading centre; the Laboratory of the Government Chemist; and a wide variety of companies involved in science, research and innovation.

I recently discovered one accidentally as a result of a parking dispute with local residents: FT Technologies which is one of two major companies in the world making wind monitoring and airflow measurement applications, much of its production being exported to China.

And one of my constituents is inventor Trevor Bayliss, best known for inventing the wind-up radio. He constantly reminds me of the parlous status and minimal support given to inventors whose ideas so often fail to find commercial application in the UK but are used overseas.

I would add that my youngest son, Hugo, is a very theoretical quantum physicist – based in Singapore.

You could say that a little knowledge is a dangerous thing. But I am familiar with the language of science and the sorts of difficulties faced by scientists, researchers and inventors.

…

My preference is to ration research funding by excellence and back research teams of international quality – and screen out mediocrity – regardless of where they are and what they do.

Its is worth noting in the last RAE 54 per cent of submitted work was defined as world class and that is the area where funding should be concentrated.

Even a rationing of this kind presents problems. How do we allow room for new, unknown but bright people? How do we reduce, not increase, the time spent on applying for funding in a more competitive market?

There is a separate but critically important question of how we maximise the contribution of Government supported research to wealth creation.

I support, of course, top class “blue skies” research, but there is no justification for taxpayers money being used to support research which is neither commercially useful nor theoretically outstanding. [emphasis mine]

As I said earlier, it would be wrong to measure this in monetary terms alone. [emphasis mine] There are wider questions, regarding the UK’s openness as a society and its attractiveness as a destination for the brightest scientists, researchers and engineers from all over the world.

….

The Hauser review suggested a sensible approach – establishing a network of Technology and Innovation Centres, based on international models such as the Fraunhofer Institutes in Germany. Both science minister David Willetts and I agree that it is a good way forward, and I am looking closely at the recommendations in the review and the value of investing in these in the context of the Spending Review.

But we should not simply be copying overseas models. The key point is that what works are business driven high technology clusters with academic links. [emphasis mine] We already have several: such as the Research Council campus at Harwell, and others such as Cambridge and potentially St Pancras – and we are working at how to develop this model further.

Despite Cable’s protests to the contrary and his attempts to ally himself with the scientific community, the focus here is on the bottom line and how science should be made to contribute. The reference to ‘blue skies research’ is notable as a way of diminishing it while simultaneously claiming its importance. Plus, it’s not just any ‘blue skies’ research, it must be ‘top class’. Unfortunately history, including science history, is littered with stories about theoretical work that was so far ahead of its time that it was dismissed by contemporaries.

I do understand that the UK’s economy is seriously troubled at this time, hard decisions will have to be made, and that scientists will not be happy with any cuts so I can appreciate why Cable has tried to present himself as ‘almost’ a scientist and mention his ‘support’ of blue skies research. He had to know that no matter how he phrased things there’d be some sort of response from the UK’s scientific community, From Jennifer Rohn’s guest post for The Lay Scientist (Guardian Blog),

…

When you deal with science on a daily basis, it is difficult to take its fruits for granted. Science gives most people the luxury to forget, at least for a while, that the world can be a brutal and dangerous place. On a planet fraught with dwindling resources, burgeoning population, emerging disease and uncertain climate, we abandon science at our peril.

It is with this backdrop that a new chapter in my life began: Science Is Vital, a grassroots campaign to support UK research. I’d like to tell you that I thought long and hard about it, but the truth is that it was an almost instantaneous reaction: I read Vince Cable’s now infamous speech signalling crippling cuts to science funding, dashed off an angry blog post, and proposed marching in the streets on Twitter all in the space of about 15 minutes.

…

Science is vital. And it’s not just scientists who think so: our petition, which has more than ten thousand contributors and rising, has been signed by a wonderfully diverse array of people, from artists, social workers and builders to ministers, legal secretaries, and fire fighters, even a self-professed “house hubby”. Our campaign, in partnership with the Campaign for Science and Engineering, has been endorsed by groups such as the British Heart Foundation, the Wellcome Trust, Cancer Research UK and many scientific societies.

If you agree, please sign our petition, write to your MP , consider joining us on our Parliamentary Lobby on Tuesday 12 October, and above all, come to our rally this Saturday 9 October in central London – we’re expecting thousands.

Think of it: scientists and their supporters, massing in the streets! We’d like as many people as possible visibly displaying their pride in science, whether it is by wearing their white coat, T-shirts with their favorite scientific image or wielding scientific objects and placards.

As a Canadian, I’m fascinated that the scientific community in the UK is organizing a public rally. When Canada’s Conservative government effectively cut scientific funding in a budget a few years ago, the Canadian science community responded months later with a letter carrying 2000 signatures. A blog evolved from that letter, Don’t leave Canada behind which is now run by Rob Annan. I believe that was the sum total of the public grassroots organizing in the face of a perceived crisis.

I realize that Canadian geography and population density do not lend themselves to centrally located or even regionally located public rallies. Distance and population numbers are always a problem.Although, I have to admit that I sometimes think that we use these problems as excuses for doing very little at all.

I hope that the folks in the UK are able to find a means of meaningful dialogue in the face of some very difficult circumstances. As for the Canadian scientific community, I imagine they are watching and waiting as they ponder future moves by the Canadian government (after all, there is a 2011 budget to look forward to).

University of Alberta, research money, nanotechnology, and those recent Chairs of Excellence

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While I’m well aware of their work in nanotechnology research, I did not realize that the University of Alberta was becoming “one of Canada’s powerhouse research centres.” Here’s more from the Globe & Mail article by Josh Wingrove,

It started last week, with Industry Minister Tony Clement flying in, making a joke about football, announcing $500,000 in funding for nanotechnology research, and promptly leaving. [mentioned in my Aug. 17, 2010 posting]

A week later, a prestigious gathering of 50 delegates from leading Chinese and Canadian research institutions arrived, as well as an announcement Thursday of $200-million in federal research money.

It would be a busy two weeks for any school. But the delegates didn’t attend McGill University, the University of Toronto or the University of British Columbia, typically regarded as Canada’s top-ranked institutions.

Instead, they came to Edmonton’s University of Alberta, which has quickly become one of Canada’s powerhouse research centres. The U of A ranks second in total research funding, behind only U of T and up from fifth in 2006. This year, the U of A will spend $514-million on research, more than double its total from a decade ago.

The university has decided to spend more on research at a time when other departments on campus are experiencing budget cutbacks.

“From a societal point of view of course, research is increasingly conducted as applied research. It’s meant to solve problems,” she [Britta Baron, vice-provost] said. “The more selfish answer from the point of view of the individual university is your prestige, your ranking, depends mostly on the quality of your research. If you want to push yourself up, you need to invest in your research.”

The U of A is home to four of the nation’s 19 Canada Excellence Chairs announced three months ago, more than any other university. [emphasis mine]

I did post about the Canada Excellence Chairs May 20, 2010 when they were first announced and was recently alerted (thanks to Joel Burford of Alberta Innovates Technology Futures) to a youtube interview with one of the new U of A Canada Excellence Chairs, Thomas Thundat. His area of interest is oil sands molecular engineering,

I’m not really sure what to make of all this other than the fact that competition amongst the universities in Canada seems to be heating up. I recall there was some outcry after a 2009 article by Paul Wells for MacLean’s where representatives from the ‘big five’ Canadian universities claimed they should get the lion’s share of funding for science research and postgraduates while Canada’s other universities should focus on undergraduate education. About 10 days later the other universities replied in an article by Cathy Gulli for MacLean’s. (Rob Annan at Don’t leave Canada behind commented on the controversy here and here.)

I would imagine these latest developments are a matter of some satisfaction for the folks at the U of A. It’ll be interesting to see how this all shakes out especially if there should be a federal election. Let’s not forget that Canada’s Prime Minister, Stephen Harper is from Alberta.

Random (but profound) ramblings on science, politics, and decision-making

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The rambling and randomness is mine; the profundity belongs to others. First off, big props to Rob Annan at Don’t leave Canada behind for his kickbutt analysis of the long form census outrage (first mentioned in my July 20, 2010 posting). As for why the decision to suspend mandatory long form census completion matters so much (from Rob’s July 26, 2010 posting),

… The long form census is the best data we have in this country, and is essential to understanding our society. But relying on data encourages – indeed, should necessitate – evidence-based decision making. But data can be inconvenient, and may contradict our assumptions (just ask any disappointed graduate student). Instead of changing assumptions, epistemological populism encourages our prejudices and assumes that the data is wrong – we can just believe our guts. And that allows a government to do whatever it feels is right.

As a modern democracy, we must expect better from the government. We should be beyond governing by hunch and feel. Science policy works in two directions. This blog is mostly about policy for science, but science for policy is also essential. Ignoring the data when crafting policy is unconscionable. Eliminating the data altogether is unforgivable.

Very briefly, epistemological populism is a theory of knowledge where data and expert advice are rejected in favour of general beliefs and feelings ascribed to either the whole populace or a significant portion of it. There’s a much better definition in Rob’s posting along with a whole lot more.

As a collection of societies sharing this planet, all countries have an obligation to be as thoughtful in their deliberations as possible and this decision to cancel Canada’s mandatory long form censustaking does not fall in that category.

On a somewhat parallel track, although the focus is decision-making with regard to science and technology, Richard Jones at Soft Machines in his July 7, 2010 posting notes,

The reality is that there are very many places in which decisions and choices are made about the directions of science and technology. These include the implicit decisions made by the (international) scientific community, as a result of which the fashionable and timely topics of the day acquire momentum, much more explicit choices made by funding agencies in what areas they attach funding priority to, as well as preferences expressed by a variety of actors in the private sector, whether those are the beliefs that inform investment decisions by venture capitalists or the strategic decisions made by multinational companies. It’s obvious that these decisions are not always informed by perfect information and rationality – they will blend informed but necessarily fallible judgements about how the future might unfold with sectional interests, and will be underpinned by ideology. [emphases mine]

Jones goes on to discuss public engagement and its role in the science and technology decision-making process,

… the big outstanding question is how the rest of the population can have some influence. Of course, research councils are aware of the broader societal contexts that surround the research they fund; and the scientists and industry people providing advice will be asked to incorporate these broader issues in their thinking. The danger is that these people are not well equipped to make some judgements. In a phrase of Arie Rip, it’s likely that they will be using “folk social science” – a set of preconceptions and prejudices, unsupported by evidence, about what the wider population thinks about science and technology (one very common example of this in the UK is the proposition that one can gauge probable public reactions to science by reading the Daily Mail [UK newspaper]). [emphases mine]

I find it amusing that Jones includes scientists in his list of groups possibly practicing “folk social science” and, perhaps, it could be said that they too are practicing epistemological populism. Later in the posting he describes a public engagement exercise that yielded some unexpected results,

The outcome of the public engagement provided rich insights that in some cases surprised the expert advisors. [emphasis mine] These insights included both specific commentaries on the proposed areas of research that were being considered (such as the use of nanotechnology enabled surfaces to control pathogens) and a more general filter – the idea that a key issue in deciding people’s response to a proposed technology was the degree to which it gave or took away control and empowerment from the individual. Of course, people were concerned about issues of risk and regulation, but the form of the engagement was such that much broader questions than the simple question “is it safe” were discussed.

(Jones’ discussion about science, decision-making, and public engagement is more far ranging and nuanced that I’ve been able to represent here, so I encourage you to read his posting.)

For a completely different perspective on the importance of data, I found David Bruggeman’s (Pasco Phronesis) July 26, 2010 commentary on citizen science and politics quite illuminating,

According to Greenwire (via The New York Times and SEFORA), [James] Moran [chair of US House of Representatives Interior and Environment Appropriations Subcommittee] characterized a number of efforts as civic activism, including (at least by implication) programs that supported elementary schools collecting water samples from nearby sources and testing for pollution. [emphasis mine] While much of what Moran discussed could be considered activism – getting the message out campaigns for pollution and climate change on par with anti-smoking or HIV prevention efforts – I’m not as sanguine about describing a neighborhood research project as political activity.

David suggests, by implication, an interesting conundrum (which he answers for himself in the posting).

Here’s the conundrum as I understand it, f a neighbourhood research project can be described as political activity then, can all science research be described as such? I think the answer is yes and that doesn’t mean we shouldn’t do it. As flawed as it is, this is the scientific process. We gather data and refine our understanding as best we can. This holds true for the census, for public engagement, and for citizen science.

British election and science, lessons for Canadians?

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I’m finally getting around to posting about the British Election and its science aspect in a little more detail than I did in my April 23, 2010 posting now that’s it been held and a coalition is going forward.

During the election period, all three parties produced manifestos that included some mention of policies for science. The Canadian Science Policy Centre provides links to an analysis of the science policies (in the New Scientist journal) found in the Conservative, Liberal Democrat, and Labour parties’ election 2010 manifestos. Short story: not a lot of detail in any of them but there are differences.

In light of the election results and the roles the various parties are likely to play in the government once it is formed, I have given the Liberal Democrats more prominence by putting them first. While the Conservatives won far more seats, it would seem that the Liberal Democrats will have substantial leverage with their colleagues in a coalition government and it will be interesting to see if they use this leverage for science.

The Liberal Democrats (excerpted from the New Scientist commentary),

Today saw the Liberal Democrats publish their election manifesto – Change that works for you – which is the last of the big three.

Like Labour’s and the Conservatives’, the Liberal Democrats’ manifesto covers science policies affecting research and education.

Unlike the other two, however, the Liberal Democrats have also made commitments about scientific advice in government.

Liberal Democrats say they want to create a “dynamic environment for science and innovation”, but the focus of their commitments is firmly on the science side.

Although they recognise the importance of science investment to the economic recovery, they admit that the economic climate means that they cannot commitment to increased investment.

The Conservatives (excerpted from the New Scientist commentary),

Like Labour’s manifesto, published yesterday, science policies affecting research, innovation and education all get a mention.

With the Conservatives leading in the polls, scientists will be particularly keen to know what the level of their commitment to science is – especially after it has been said they are “a vision-free zone” when it comes to science policy.

In fact, the Conservation vision for science is upfront in the foreword to the manifesto, stating that they want “an economy where Britain leads in science, technology and innovation”.

Finally, Labour (excerpted from the New Scientist commentary)

Labour is the first party to publish its election manifesto – A future fair for all.

There is debate about the importance of manifestos, but they do set out what the parties’ political priorities would be. Science policies affecting research, innovation and education all get a mention in the manifesto, but none of those commitments rank as one of their 50 steps for a fairer Britain.

The economy is probably the biggest issue in this election, and it is in the first section on “growth” that science policy first is mentioned.

Labour takes the opportunity to highlight the “substantial” investment it has made in the research base since 1997. This is certainly true, as Labour has almost doubled investment in the research base between 1997 and 2007 in real terms.

It is harder to argue, as Labour claims, that it has “massively increased investment in research and development (R&D) as a proportion of national income.” In 1997, 1.77% of GDP was spent on R&D and in 2007 it was up to 1.81%. In both 1997 and 2007 was 0.55% of GDP was spent on R&D by government.

In terms of funding commitments, Labour says it will have a “ring-fenced science budget in the next spending review”.

(A ‘ring-fenced’ budget would be a commitment to a minimum guaranteed amount for funding.)

Richard Jones on his blog, Soft Machines, provides some insight into the use of ‘science’ social media during the 2010 election campaign. From his post,

Is there a significant constituency for science, that might impose any political price on cutting science budgets? This election has seen high hopes for social media as a way of mobilising a science voting block – see #scivote on Twitter. Looking at this, one sees something that looks very much like an attempt to develop an identity politics for science – the idea that there might be a “science vote”, in the way that people talk (correctly or not) about a “gay vote” or a “christian vote”. There’s a sense of a community of right-minded people, with leaders from politics and the media, and clear dividing lines from the forces of unreason. What’s obvious, though, is this strategy hasn’t worked – a candidate standing on a single issue science platform ended up with 197 votes, which compares unfavourably with the 228 votes the Monster Raving Loony Party got in my own, nearby constituency.

I would encourage you to read the entire post as Richard provides an insider’s (he’s a scientist who’s been involved in a number of important British science reports and advisory groups) view.

CaSE (Campaign for Science and Engineering) has posted an analysis of science policy in the new coalition government based on the manifestos and the coalition negotiation agreement. (Note: CaSE is a British science advocacy organization mentioned in this blog here.) From CaSE’s May 12, 2010 posting,

The dramatic election outcome gives the Conservatives and Liberal Democrats an opportunity to rethink and refine their election commitments. Science and engineering did not feature in the coalition negotiation agreement, but looking through the parties’ manifestos and additional commitments made in letters from David Cameron and Nick Clegg to CaSE, gives us a feel for what the future might hold.

Funding is always a key issue,

First, as ever, let’s talk about the money – do the parties agree on funding the research base? The Liberal Democrats committed to not cutting science spending in the first year of the new Parliament. Unfortunately, the Conservatives never wrote down strong commitments, although they did promise a multi-year settlement in recognition of the need for stability.

…

The Conservatives came close, but never actually committed to protecting science budget spending once it has been allocated. The Liberal Democrats stated that they would clearly define and then ring-fence this spending.

On how the money should be allocated, the Liberal Democrats support the Haldane Principle – that decisions on how the science budget should be spent are best made by those in the science community itself.

The poster (Hilary Leevers) also comments on private investment and education and skills but I’m more focused on science and engineering in government or ‘science advice’,

The Liberal Democrats made a series of strong commitments on scientific advice and policy making which we hope that they can persuade the Conservatives to adopt. First, they endorsed the original Principles for the Treatment of Independent Scientific Advice, which was drawn up by the scientific community and underlines the independence and freedom of advisers to the Government. CaSE would like to see an adaptation of this incorporated into the new Ministerial Code.

The Liberal Democrats pledged to appoint a Chief Scientific Adviser to the Treasury and reinforce the powers of the Government’s Chief Scientific Adviser, as well as strengthening the role of the Parliamentary Office of Science and Technology. They also said that they would like to see regular use of Randomised Controlled Trials in testing new social policy initiatives.

Finally, both parties committed to reform libel laws, as the Conservatives put it, “to protect freedom of speech, reduce costs and discourage libel tourism”, and more specifically for researchers from the Liberal Democrats, “to protect peer reviewed research from libel suits”. Reviewing libel laws to protect feedom of speech did actually make it into the coalition agreement.

As of today, David Willetts has been named Minister of State for Universities and Science, from the May 13, 2010 CaSE posting,

In our brave new coalition government, it seems that there will be two strong, respected and thoughtful advocates for science and engineering. David Willetts has been appointed Minister of State for Universities and Science in the Department for Business, Innovation and Skills (BIS) with Vince Cable as Secretary of State for BIS. Cable studied natural sciences with economics at Cambridge and, while his background is not in the sciences, Willetts has often engaged well with science issues in his former roles as Shadow Secretary for Education and then Innovation, Universities and Skills.

Dave Bruggeman (Pasco Pronesis blog) also notes Willett’s appointment in one of his recent postings and, in a previous posting, provided the numbers of newly elected British MPs with science experience,

The Times had estimated that the number of MPs with a science background and/or serious engagement with science issues would drop from 86 to 77. It dropped to 71.

Dave goes on to provide some thoughtful analysis as to what all this might mean in the context of Britain’s current economic situation.

It’s interesting to consider these British science election commentaries in relationship to the Canadian scene which features three national federal parties (only one of which has any mention of science in its policy platform [4 four bullet points in the Conservation party platform]). No science debates and no mention (that I can recall) of science in any Canadian election for the last 10 years, at least.

The current discussion about science in Britain is extraordinary by Canadian standards and my hat’s off to the Brits not only for ‘getting science to the table’ but for working so long and so hard to make sure that it stays there.

There are a couple rays of hope on the Canadian scene, the Canadian Science Policy Centre which will be putting on its second annual conference this coming October (I’ll post more about that as details are released). There are also Canadian science bloggers such as:

Rob Annan at Don’t leave Canada behind who comments extensively on the Canadian science policy scene and offers in-depth analysis;
Pascal Lapointe and his colleague at Je vote pour la science (coincidentally they have a podcast about scientists as politicians, which includes some commentary about the recent British election); offer wide-ranging discussion on Canadian science policy and science; and
the folks at The Black Hole who usually comment on the situation for Canadian science postdoctoral ‘students’ while also offering thoughts on science education and literacy.

Not exactly a blog,

Science Canada functions as an aggregator of Canadian science policy news.

If you know of any other bloggers or developments on the Canadian science policy scene, please do let me know.

Replacing Asimov’s Laws of Responsible Robotics?; more thoughts on innovation in Canada

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David Woods, professor of integrated systems engineering at Ohio State University, and Robin Murphy of Texas A&M University propose three new robot laws in the current issue of IEEE Intelligent Systems in the media release on Science Daily. According to Woods,

“When you think about it, our cultural view of robots has always been anti-people, pro-robot,” … “The philosophy has been, ‘sure, people make mistakes, but robots will be better — a perfect version of ourselves.’ We wanted to write three new laws to get people thinking about the human-robot relationship in more realistic, grounded ways.”

This view contrasts somewhat with Mary King’s work on the differences between Japanese and Western perspectives on robots. She acknowledges the fascination and anti-people perspectives in the West but notes pervasive fears while contrasting them with Japanese perspectives on robots where they are viewed in a more purely beneficial way and as being related to nature. You can read her work here or you can check out my previous posts about Mary King’s work in my series on robots and human enhancement, July 22 and 23 2009 are particularly relevant.

Before looking at the new laws, here’s a refresher of Asimov’s three:

A robot may not injure a human being, or through inaction, allow a human being to come to harm.

A robot must obey orders given to it by human beings, except where such orders would conflict with the First Law.

A robot must protect its own existence as long as such protection does not conflict with the First or Second Law.

Woods points out that Asimov was a writer and his laws were developed as a literary device. Woods’ and Murpy’s proposed laws are these,

A human may not deploy a robot without the human-robot work system meeting the highest legal and professional standards of safety and ethics.

A robot must respond to humans as appropriate for their roles.

A robot must be endowed with sufficient situated autonomy to protect its own existence as long as such protection provides smooth transfer of control which does not conflict with the First and Second Laws.

I see Rob Annan at Don’t leave Canada behind has written some more on innovation in Canada. He highlights a couple of articles in MacLean’s magazine, one focusing on John Manley, former Liberal deputy Prime Minister in Jean Chretien’s cabinet, and a two-part series on Canada’s big five universities. Manley who’s in the process of becoming president of the Canadian Council of Chief Executives has some rather pithy (compared to the usual) things to say about innovation and Canadian business. What makes this interesting is the group he will be leading has 150 members, the chief executives of Canada’s biggest corporations, who claim $3.5 trillion in assets and $800 billion in revenues.

Meanwhile, the presidents of Canada’s big five universities point out that Canadian business does not develop and promote its own research and development labs relying instead on university research. Do read Rob’s blog for more discussion about this.

And since it’s Friday, I’m going to mention Raincoaster’s upcoming 3-day novel workshop on Bowen Island (Vancouver, Canada) which will be held on the Labour Day Weekend. I don’t have any details but will post them as soon as I get them. If you’re curious about Raincoaster, you can check out the regular blog here or the blog that has information about other courses here.

Alberta welcomes a new nanotechnology product and research centre plus some news on a kissing phone

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The new facility will be called the Hitachi Electron Microscopy Products Development Centre (HEMiC) at Canada’s National Institute of Nanotechnology (NINT) at the University of Alberta, Edmonton. From the media release (on Azonano),

“Alberta’s strength in nanotechnologies, and the province’s coordinated strategy for nanotechnology made our decision to seek a partnership here easy,” said John Cole, President of Hitachi High-Technologies Canada, Inc. “This initiative engages Hitachi with Alberta’s nanotechnology community at the leading edge of research while contributing to commercial opportunities.”

…

The Centre will house three new electron microscopes valued at $7 million, including the first-ever Hitachi environmental transmission electron microscope Model H-9500 in operation outside of Japan.

There are many quotes in the media release, surprisingly, none from Dr. Nils Petersen, NINT’s Director General.

Fast Company is featuring an article by Kit Eaton about phones that won’t require buttons for control (more touch screen-type technology but introducing a new level of innovation). As it turns out, these phones will be coming from Nokia. Kissing the phone as a gesture that you want to contact a loved is just one of the ideas being explored. More here including a Nokia video about the project. The product designers are looking at how people gesture and, depending on your culture, the meaning behind gestures can vary greatly as the Nokia designer notes in the video. Anyway, this type of project relates to my interest in multimodal discourse and my suspicion that we won’t be writing (or for the matter reading) as much as we do now.

Rob Annan over at Don’t leave Canada behind has picked up on my series of last week’s about innovation in Canada, in his posting Canada not simply hewers and drawers.

Happy Canada Day!

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This will be a short one. My recent paper, ‘Nanotechnology, storytelling, sensing, and materiality‘, gave me a chance to explore the impact that various sensing technologies used for the nanoscale might have on storytelling. In one of those happy coincidences that can occur, I came across a new sensing technique (although strictly speaking it’s not applied at the nanoscale) that incorporates light and sound on Nanowerk News here. The new technique has allowed researchers to create three-dimensional whole body visualizations of zebra fish. From Nanowerk News,

The real power of the technique, however, lies in specially developed mathematical formulas used to analyze the resulting acoustic patterns. An attached computer uses these formulas to evaluate and interpret the specific distortions caused by scales, muscles, bones and internal organs to generate a three-dimensional image. The result of this “multi-spectral opto-acoustic tomography”, or MSOT, is an image with a striking spatial resolution better than 40 micrometers (four hundredths of a millimeter). And best of all, the sedated fish wakes up and recovers without harm following the procedure.

This new technique, MSOT, has applications for medical research.

In tangentially related news, Rob Annan’s posting on the ‘Don’t leave Canada behind‘ blog (June 30, 2009) features a few comments about a recent article in the New York Times that suggests current funding structures inhibit innovative cancer research. The report was written about US funding but Annan offers some thoughts on the matter and points the way to more Canadian commentary as well as the New York Times article.

That’s it. Happy Canada Day.

FrogHeart

Commentary about nanotech, science policy and communication, society, and the arts

Tag Archives: Don’t leave Canada behind

More thoughts on science policy and the Canada 2011 federal election and Peer Review Radio end-of-season broadcast

Canadian R & D funding review and intellectual property as the Coalition for Action on Innovation in Canada

Grassroots science organizing in the UK

University of Alberta, research money, nanotechnology, and those recent Chairs of Excellence

British election and science, lessons for Canadians?

Replacing Asimov’s Laws of Responsible Robotics?; more thoughts on innovation in Canada

Alberta welcomes a new nanotechnology product and research centre plus some news on a kissing phone

Happy Canada Day!