Just a few slides I threw together that might save someone else the effort. The links on the penultimate slide are a useful quick reference to JISC’s work on VREs. Useful if you’re trying to introduce the idea in your university. It’s interesting to see VREs described as ‘socio-technical systems’ and the emphasis that is put on community in a bottom-up approach to building a VRE.
Author: Joss Winn
Towards a manifesto for sharing
One of the conclusions I’ve come to over the course of the ChemistryFM project is that sharing doesn’t need institutionalising. I don’t think we need to develop policy and processes for sharing the work we do. I’ve been drafting the final report for the ChemistryFM project this week and have written that “the overall approach taken throughout the project was to not treat it as a project.” Basically, despite being Project Manager, I’ve just let the teachers and students get on with the work we said we’d do and prompted them simply to remind them of obligations we have to finishing the project on time.
The idea of formalising the process of sharing teaching and learning materials is something I’ve found myself increasingly resisting throughout the project. Academics don’t need more constraints on their working practices, they need less. They need more freedom to share and a hand in doing so when they’re hesitant about how best to share their work; they need support when they’re unclear about how to license their resources.
I’ve been reminded of a paper by David Noble where he argues that universities are responsible for “the systematic conversion of intellectual activity into intellectual capital and, hence, intellectual property.” He goes on to bemoan
the commoditization of the educational function of the university, transforming courses into courseware, the activity of instruction itself into commercially viable proprietary products that can be owned and bought and sold in the market. In the first phase the universities became the site of production and sale of patents and exclusive licenses. In the second, they are becoming the site of production of — as well as the chief market for — copyrighted videos, courseware, CD–ROMs, and Web sites.
Of course, the OER movement is in part a reaction to this very commoditisation of education and an effort to counter the transformation of courses into commercial courseware.
I worry though that by institutionalising OERs, we’re producing constraints that go against sharing. Scaling up the production of OERs to an institutional level where sharing is considered in terms of an IP Policy, business case, marketing and ‘best practice’ will kill the potential that already exists to share. We have the Internet, we have the licenses, we have an abundance of resources to share. We don’t even need to measure success in terms of resources shared. Rather, we should be measuring the success of the OER movement by our willingness to resist the systematic conversion of intellectual activity into intellectual capital. To justify OERs in terms of a business case is just another way of creating capital out of immaterial labour.
In terms of our contribution to the academic commons we’ve already argued that the teacher-student relationship needs to be defined by an alternative organising principle where the student is a co-producer in the construction of mass intellectuality.
this requires academics and students to do more than simply redesign their curricula, but go further and redesign the organizing principle, (i.e. private property and wage labour), through which academic knowledge is currently being produced… creating a teaching, learning and research environment which promotes the values of openness and creativity, engenders equity among academics and students and thereby offers an opportunity to reconstruct the student as producer and academic as collaborator. In an environment where knowledge is free, the roles of the educator and the institution necessarily change. The educator is no longer a delivery vehicle and the institution becomes a landscape for the production and construction of a mass intellect in commons.
When there’s equity between teacher and student, then sharing will come naturally, it will be unstoppable and grow exponentially. When teaching and learning materials are evaluated, packaged, branded, standardised and archived, they’re turned into learning objects consumed by objectified ‘learners’. That is, if they ever get as far as becoming learning objects as each step in their production is another barrier to sharing.
Scott Leslie has got it right when he says, “if you want to share, you will”. If we help create a desire, (a compulsion is what I feel), to share in both teacher and student academics, then any existing barriers will be irrelevant. We do that, not by institutionalising sharing, but by showing the humanity in sharing; the joy of giving and receiving; the immaterial wealth of knowledge that already exists and the pleasure of creating social relations that resist the organising principle of private property and wage labour.
I’m currently reading Do It Yourself. A handbook for changing our world. It’s basically a book about taking direct action. There’s a section in there on ‘popular education‘, which I think the current debate around the institutionalisation of OERs, as clearly seen from the comments and pingbacks on Scott’s post, could learn from. It’s written by the Trapese Collective, and walks through the key aspects of popular education:
- A commitment to transformation and solidarity
- Learning our own histories and not his-story
- Starting from daily reality
- Learning together as equals
- Getting out of the classroom
- Inspiring social change
There’s no emphasis on technology or networks or even the conscious act of sharing. The emphasis is on grounding education in the reality of our social relations, the struggle of daily life, the hierarchical relations between institutions and people, and between academics and students. The desire for autonomy is also a desire to re-instate the commons, to break the enclosures that currently inhibit sharing. The conscious act of sharing is both a move to resist oppression and a drive towards autonomy. After all, we share our work in education so that one-day we might become free through education, don’t we?
The title of this post is ‘towards a manifesto for sharing’. If we were to write such a manifesto, what would it contain? Feel free to start writing it in the comment box below. Thanks.
Becoming a scholar activist
I’ve been looking for information about ‘scholar activism’ and recently came across an MA in Activism and Social Change at Leeds University. It’s run by Dr. Paul Chatterton, lecturer in the School of Geography. His colleague has written a really interesting, reflective paper about setting up the MA degree, and Paul has written a couple of related papers on making strategic interventions inside and outside the neo-liberal university, and about academia and activism.
Interested in this stuff? Got any links and references to share?
JISC Greening ICT Keynote Presentation
Here are the slides I used for JISC’s Greening ICT Programme Meeting. There are 25 slides with lots of notes and references from slide 26 onwards.
ePub downloads from EPrints
I’m at JISC’s #dev8D conference. There’s no end of developer challenges but I’m not a developer. Still, here’s an idea that maybe someone will pick up and run with:
The use of eBook readers is on the rise. Anyone with an iPhone, Android phone, as well as Kindles and Sony Readers, has an eBook reader.
Institutional Repositories provide scholarly articles in PDF format, which eBook readers don’t handle very well at all, especially the phone versions.
Why not provide a Word-to-PDF conversion facility in your repository? EPrints currently offers Word-to-PDF conversion durinng the deposit process. Why not Word-to-ePub format, too?
Why not provide an ePub file as an alternative to the PDF download? ePub is a free, open, standards-based (XHTML/CSS) file format for eBook Readers. There are many advantages for the reader to having an ePub version rather than a PDF version when using an e-Book reader. i.e. better page navigation, search, bookmarks, variable font sizing.
There are PDF-to-ePub converters on the web, so technically it’s possible. They are a bit hit and miss, but so are the Word-to-PDF converters.
Anyone interested? I’d be keen to help if required.
WordPress: Beyond Blogging!!
These are slides to accompany an eight minute ‘Lightning Talk’ for the dev8D conference in London, 24-27th February 2010. Each slide is a link to a blog post I have written on ways to use WordPress and WordPress Multi User, that are not about blogging.
Brief notes are available from slide 12 onwards.
Revisiting ‘Thinking the unthinkable’
In October, I wrote a post which gave an overview of a (failed) bid to JISC.
“What will happen to the provision of a technology dependent education when energy consumption is restricted by recurring interruptions in supply and significant spikes in costs?” This project aims to address this question by re-framing ‘Sustainable ICT’ within the context of an imminent crisis in energy supply. As we increasingly turn to ICT to enhance, support and deliver education and research, the prospect of an energy crisis within the next ten years becomes crucially important to our sector, its partners and stakeholders. The project will use JISC’s Scenario Planning tools to address this crisis and examine the wider energy context, which fuels the UK’s industrialised and globalising model of Higher Education.
I have added the feedback I received as a postscript to the original post. Needless to say I was disappointed that it did not receive funding at that time, but very encouraged by the positive response I received from the evaluation panel.
Since submitting the bid, I have continued to pursue this area of research and wanted to reflect on the last four months of intensively reading around the subject of energy, climate change and, to a lesser extent, the resilience of HEIs. I have written about some of this in other posts, but think that a summary update would be useful for me to gather my thinking and perhaps be of interest to you, too. I should say upfront, that today, as I write, I’m not especially optimistic about the ability for the tertiary education sector to continue in its current form beyond the end of this decade (mainly due to increasing economic pressures) and hope that I offer enough reasons below to motivate other people to join Richard Hall and I, in pursuing this research further.
Peak Oil (or an oil ‘supply crunch’)
As I was writing the original research bid, The UK Energy Research Centre published their Global Oil Depletion Report, a massive survey of recent literature on the subject of Peak Oil. They concluded:
On the basis of current evidence we suggest that a peak of conventional oil production before 2030 appears likely and there is a significant risk of a peak before 2020.
As I’ve noted before, there is reason to suggest that oil production has already peaked, since supply has effectively plateaued since 2005, despite the annual price of oil steadily increasing in the midst of significant price volatility.
Since the UKERC report, there have been other notable reports which forecast a peak in oil production by 2020. For example, yesterday the Peak Oil Task Force, a group of six UK companies, including Virgin, Scottish and Southern Energy and Stagecoach, published a report which warns of the “urgent, clear and present danger” of an ‘oil crunch’ by 2015:
The next five years will see us face another crunch – the oil crunch. This time, we do have the chance to prepare. The challenge is to use that time well. As we reach maximum oil extraction rates, the era of cheap oil is behind us. We must plan for a world in which oil prices are likely to be both higher and more volatile and where oil price shocks have the potential to destabilise economic, political and social activity. Virtually every sector of our economy is still dependent on oil.
This follows several other recent reports and warnings. For example, a Chatham House report forecasts a 2013 peak, the NGO, Global Witness, warns of an imminent supply crunch; Petrobras, Brazil’s oil company, a 2012 oil crunch; the CEO of Total SA, forecasts a peak by 2015; Shell’s CEO likewise forecasts an end to easily accessible oil by 2015; Chevron are vague on the date (2012?), but issued [PDF] a clear warning in 2005; the former VC of Saudi Aramco, the world’s largest producer of oil, has said that oil production has peaked and is currently on a plateau. The International Energy Agency (IEA), representing OECD countries, has warned of an oil crunch from 2011, with production peaking by the end of the decade.
The conventional economic theory of demand destruction caused by the rising price of oil has had very little effect on the amount of oil consumed and conversely, price rises and therefore opportunity for investment over the long-term and incentives to produce more to sell in the short-term, have not resulted in a rise in oil production. Between 2002-5, “for every dollar increase in oil prices, three year cumulative global crude oil production increased at 167 mb per dollar.” However, between 2006-8… “for every dollar increase in oil prices, three year cumulative global crude oil production fell at 15 mb per dollar, again relative to the 2005 rate.” ((Comment on Oil Drum)) Similarly, the ex-VC of Saudi Aramco has said:
The evidence is that in spite of the increases – very large increases – in oil prices over the last four years, we haven’t been able to match that with increasing capacity. So, essentially, we are on a plateau.
Energy Security
In the original bid to JISC, I framed the problems of Peak Oil and Climate Change as potentially serious impacts on the operation of HEIs and therefore the provision of tertiary education in the UK. Energy security is a broad term that covers the supply and distribution of the different fuels that we need to fuel a growing economy. Global economic growth (GDP) is closely coupled to the global consumption of oil, and while there are indications that the demand for oil by OECD countries has started to decline, global demand is still expected to rise because of the demand by developing countries.
So we have a situation where the global demand for oil will outstrip the available supply of oil, therefore impacting on economic growth. On today’s Financial Times ‘Energy Source‘ blog, Geologist, Colin Campbell was quoted from 2006, saying:
I think we are facing an oil price shock, 100 or 200 dollars a barrel, an economic recession that cuts demand, and I will not be at all surprised if a fall in demand would make the price collapse again. So we might be back to 20 or 30 dollars a barrel next year perhaps. And so you have a price shock, a recession, a recovery, hits again the falling capacity limit, another price shock. And so I think that in the next few years, we have a sequence of vicious circles and gradually the reality of the situation will filtered through. We are on for a very volatile few years with enormous economic consequences.
The FT reporter thinks this view is “on the money” and I am inclined to agree, too.
Peak Oil is not the only energy security problem that we face over the next decade. The year 2016 is commonly given as the point where our national infrastructure, in it’s current form, can no longer supply the energy we demand.
Planned closures of ageing nuclear plant and the removal, by the end of 2015, of a significant amount of coal and oil-fired power stations under European environmental legislation is likely to lead to a large fall in the electricity capacity margin. ((Project Discovery – Energy Market Scenarios, p.5))
Ofgem’s recent Project Discovery project produced four market scenarios for the UK’s energy future. Their worse case scenario, as I’ve touched on before, is a ‘dash for energy’ scenario ((Project Discovery – Energy Market Scenarios, p.16)), where “the recession proves short-lived. Demand bounces back strongly and then increases over time, although investment levels take some time to become re-established following the hiatus caused by the credit crisis.” The costs of this to consumers would be a 60% increase in energy bills by 2020. ((I’ve noted elsewhere that Ernst & Young have calculated a possible 400% increase in consumer energy bills by 2020.))
However, in December, after consultations with energy companies and academics, the Chief Executive of Ofgem thought that this was “too optimistic”. Conversely, earlier this month, Ofgem issued a warning that bills could rise by 20% over the next decade, presumably because they do not now expect a ‘dash for energy’ scenario, but rather an economic outlook of slow growth.
Ofgem conclude that we have a narrow window until 2013 to implement policy to address supply security from 2016:
Although our scenarios do not indicate concerns over supply security until beyond the middle of the current decade, the timescales required to secure finance, mobilise supply chains and deliver the infrastructure needed suggests that the period around 2012 and 2013 could be important for investment decisions critical to future secure and sustainable energy supplies. Hence, there is a window of opportunity between now and then to implement any policy measures that may be necessary to make sure that investment takes place in a timely fashion. ((Project Discovery – Options for delivering secure and sustainable energy supplies, p.5))
Whichever way I am able to understand it, the picture of energy security for the UK over the next decade looks uncertain and any response, costly. Dieter Helm, Prof. of Energy Policy at Oxford, thinks we’re in a mess and calls for “a more imaginative approach to infrastructure… The Victorians did it: the current generation needs to repeat it.” ((The Challenge of Infrastructure Investment in Britain, p.39))
The rebound effect of (technological) efficiencies
One of the measures to improve the security of our energy supply is to improve our efficiency of energy use. This effectively allows us to do the same (or more), with less energy than before. The subject of energy efficiency is also closely related to our carbon reduction targets. The 2008 EU directive on Climate Change sees energy efficiencies as “one of the key ways in which CO2 emission savings can be realised.” (p. 8) The target is a reduction of 20% by 2020.
However, there is a problem when claiming absolute targets for energy efficiency, which has been studied by the UK Energy Research Centre in a 2007 review of over 500 studies in this area. The report is called, An Assessment of the evidence for economy-wide energy savings from improved energy efficiency, otherwise known as The Rebound Effect Report.
As the report notes, there have been claims in the past that technological efficiencies result in absolute and predictable decreases in energy use, just as there have been claims that such efficiencies result in more energy being used (in the latter case, this is referred to as ‘backfire’). The basic point is that while technological efficiencies in the use of energy are real, the overall result is that only part of the actual efficiency is realised in society. This is because while we save energy through efficiencies, we spend part of those savings on other activities that use up energy.
An example of a rebound effect would be the driver who replaces a car with a fuel-efficient model, only to take advantage of its cheaper running costs to drive further and more often. Or a family that insulates their loft and puts the money saved on their heating bill towards an overseas holiday.
This was first identified as the Jevons Paradox, which I have written about before. The usefulness of the UKERC report is that it demonstrates the complexity of the issue, but also that it usefully summarises the individual and social consequences of efficiencies. Efficiencies can be divided into those that have a direct rebound effect and those that have an indirect, or economy-wide, rebound effect.
An example of a direct rebound effect quoted above is where a family drive more because they’ve bought a more fuel efficient car. The report concludes that in particular circumstances up to 30% of the intended energy ‘saved’ through efficiency might be ‘spent’ in this way, particularly in areas such as transport and heating/cooling.
An example of an indirect rebound effect quoted above is where a family insulates their loft and then uses the savings in heating costs towards a holiday. The report is hesitant to draw conclusions in this area, but indicates that up to 50% (perhaps more) of the intended energy ‘saved’ in particular circumstances through efficiency might be ‘spent’ in this way. Some studies suggest much higher numbers which, they say, should be taken with caution.
The UKERC conclude that the alarming claims of ‘backfire’, where energy efficiency measures result in an overall increase in energy used, cannot be verified but should still be taken seriously. There is more evidence of this occurring when technologies are pervasive (i.e. the steam engine or electric motor).
The conclusions of the report are now of great interest to me and have confirmed the direction my research was beginning to go: that is, the relationship between energy and economic growth. I mentioned this in my original ‘Thinking the unthinkable’ post, in terms of how economic growth, the use of energy and the production of emissions are all coupled. The UKERC report puts it like this:
In developed countries, energy use as conventionally measured has grown more slowly than the economy as a whole. From this, it is generally concluded that technical change has improved the efficiency with which energy is used and thereby helped to ‘decouple’ energy consumption from economic growth. However once different energy sources are weighted by their relative ‘quality’ or economic productivity, the coupling between energy consumption and economic growth appears far stronger. Taken together, the evidence reviewed in this report suggests that: a) the scope for substituting other inputs for energy is relatively limited; b) much technical change has historically increased energy intensity; c) energy may play a more important role in economic growth than is conventionally assumed; and d) economy-wide rebound effects may be larger than is conventionally assumed.
Claims of a decoupling of energy consumption and emissions from economic growth virtually always refer to a relative decoupling, rather than an absolute decoupling.
It’s vital to distinguish between ‘relative’ and ‘absolute’ decoupling. Relative decoupling refers to a situation where resource impacts decline relative to the GDP. Impacts may still rise, but they do so more slowly than the GDP. The situation in which resource impacts decline in absolute terms is called ‘absolute decoupling’. Needless to say, this latter situation is essential if economic activity is to remain within ecological limits.
Evidence for declining resource intensities (relative decoupling) is relatively easy to identify. The energy required to produce a unit of economic output declined by a third in the last thirty years, for instance. Global carbon intensity fell from around one kilo per dollar of economic activity to just under 770 grams per dollar.
Evidence for overall reductions in resource throughput (absolute decoupling) is much harder to find. The improvements in energy (and carbon) intensity noted above were offset by increases in the scale of economic activity over the same period. Global carbon emissions from energy use have increased by 40% since only 1990 (the Kyoto base year). ((Prosperity without growth? The transition to a sustainable economy, p. 8))
Meeting our carbon targets
While the ‘rebound effect’ may have some implications for our energy security in terms of how efficiency measures may or may not safeguard against a scenario of oil depletion and overall supply disruptions, there are very clear implications for our carbon reduction targets. One of the issues, perhaps the biggest issue, is that of population increases, a subject that is often recognised in reports, but skirted over because of the seemingly hopeless task and political sensitivity of addressing it. Nevertheless, it needs to be recognised that population increases do contribute to overall energy use and emissions and need to be accounted for in calculations that inform Climate Change policy.
Richard Hall has recently begin to address this, referring to Ehrlich-Holdren’s sustainability equation
I = P.A.T
That is, the impact of human activities (I) is determined by the overall population (P), the level of affluence (A) and the level of technology (T). Quoting Tim Jackson, Richard writes:
However, a key problem is the dynamic of efficiency vs scale. Jackson notes (p. 3) that “Technology is an efficiency factor in the equation. Population and affluence are scaling factors. Even as the efficiency of technology improves, affluence and population scale up the impacts. And the overall result depends on improving technological efficiency fast enough to outrun the scale effects of affluence and population.” So these factors are not independent and “appear to be in a self-reinforcing positive feedback between affluence and technology, potentially – and I emphasise potentially – geared in the direction of rising impact”
A recent paper I have found helpful in terms of thinking about the UK’s Climate Change Act (2008) concludes that the Act is certain to fail, showing how the target of an 80% reduction in emissions by 2050 (and 34% by 2022) has no historical precedent. What I found useful, regardless of whether the targets are practicably achievable, are the author’s observations on population growth and economic growth (GDP).
In summary, Pielke shows that the UK’s population is predicted to grow by 0.7% per year to 2031, which would mean that the population will be around 67 million people. Extending this to 2050, we would have a population of about 82 million. He warns the reader that population growth forecasts are “notoriously uncertain, so caution should be used when using them, as actual future populations could be higher or lower.” (p. 2) He then considers economic activity and observes that the UK economy averaged 2.5% GDP growth (inflation adjusted) between 1990-2007. Combining the 0.7% population increase with a more modest 2% GDP growth rate, implies a per capita growth rate of 1.3% per year. Finally, Pielke factors in technological change and notes that according to the US Energy Information Agency, “from 2000 to 2006 UK energy efficiency increased by about 2% per year, while the carbon intensity of the energy supply was largely unchanged.” (p. 2)
Because the effects of technological change (including changes in the economy toward services and away from energy intensive industry) just about balanced the overall growth of the economy for the past decade, the UK has seen little growth in its overall carbon dioxide emissions (although the UK National Audit Office recently observed that the lack of growth in emissions is also due to accounting, as some economic activities, like air travel, are not included in official emissions numbers.
Following Dieter Helm, I’ve noted before that this method of accounting creates an illusion ((UK’s official CO2 figures an illusion – study. Source: Too Good to be True? The UK’s Climate Change Record [PDF])) around our official emissions figures, transforming a reported 15% reduction into a 19% increase in emissions since 1990.
It seems to me that Pielke’s observations complement Tim Jackon’s reference to the I = P.A.T equation as well as the conclusions of the UKERC’s Rebound Effect report. That is, technological efficiency, although vitally important, does not, as we might expect, lead to an overall reduction in emissions or energy consumption. It merely helps balance the impacts of population growth and consumption led economic growth. Of course, if we also take into account our emissions and energy use that we outsource to industrialising countries such as China, the balance is lost in favour of rising energy use and emissions.
What is clear to me is that technology is being used as an excuse to avoid the greater issues of a broken and destructive (suicidal?) political economy and the consequences of an aspirational and growing population. Tim Jackson puts this nicely:
The IPAT equation appears to offer us broadly three ways of achieving overall reductions in energy demand (for example). One, reduce the population – not a popular choice. Two, reduce the level of affluence (again not high on political priorities – although an interesting avenue to explore at various levels as I shall suggest in a minute). And three, improve technology: specifically to increase the energy efficiency of income generation, to reduce the energy intensity of the economy.
Given the unpopularity and political intractability of routes one and two, it’s perhaps not surprising to find the mainstream response is to adopt route three as the preferred approach. Indeed an examination of the history of international policy from Brundtland onwards reveals quite clearly how route 3 allowed the world to steer an uneasy path between the demands of the North for population control in the South and the demands of the South for reduced affluence in the North. Option 3 emerges as an apparently politically neutral way through a tricky impasse. ((Rebound launch: keynote presentation))
Our technological subservience to economic growth
Technology emerges as an apparently politically neutral way through a tricky impasse.
This single line encapsulates a great deal of what I have been trying to understand through writing these posts over the last few months and it links to a question Richard raises in his recent post: Is this all subservient to a view of economic growth? The answer has to be yes. The production and consumption/use of technology is not politically neutral. As we have seen, all the time we pursue economic growth, technology serves the objectives of capitalism. This is evident in the long history of capitalism, just as it is evident in Higher Education today.
In short, society is faced with a profound dilemma. To resist growth is to risk economic and social collapse. To pursue it is to endanger the ecosystems on which we depend for long-term survival.
For the most part, this dilemma goes unrecognised in mainstream policy or in public debate. When reality begins to impinge on the collective consciousness, the best suggestion to hand is that we can somehow ‘decouple’ growth from its material impacts.
Never mind that decoupling isn’t happening. Never mind that no such economy has ever existed. Never mind that all our institutions and incentive structures continually point in the opposite direction. The dilemma, once recognised, looms so dangerously over our future that we are desperate to believe in miracles. Technology will save us.
Capitalism is good at technology. So let’s just keep the show on the road and hope for the best. ((Prosperity without growth? The transition to a sustainable economy, p. 102))
Despite the genuine and overwhelming challenges of energy depletion and climate change, technological development as a means to solve these problems, is merely a sideshow. Technological innovation and the resulting improvements in energy efficiency and lower emissions are vital responses, but do little more than offset the exponential problems of an increasing population and economic growth. I am hesitant to call population growth a problem all the while the relatively few rich consumers produce the majority of emissions ((George Monbiot, The Population Myth)). Economic growth and and our notion of what constitutes ‘progress’ seem to me, to warrant much of our attention when considering these issues.
I think that’s where I need to go next. Only by understanding our role within capitalism can we attempt to address the problems I’ve discussed. What better place to do this than a Higher Education institution, a place where the impacts of these issues are evident everywhere and answers to these problems can be collectively sought. I recently applied to the HEA for funding in an attempt to begin to put this into practice and will continue to think along these lines.
Displaying a dynamic publications list from a repository on a staff profile page
I repeat this to people all the time. If I write it down here, then I only have to share a link 😉
RSS feeds are a very popular way of syndicating content from one source website to another subscribing website.
Some university websites, such as the Institutional Repository or University blogs, produce RSS feeds but not all university websites can easily subscribe to them. However, by using ‘feed2js’, any website can display a syndicated news feed in just a few steps. This way, you can embed your blog or publication list in Blackboard or on your personal web profile, for example.
Creating a publications list from the repository
We use EPrints as our Institutional Repository. EPrints provides news feeds (RSS, RSS2, Atom) for every search query. Therefore you can create a news feed of publications by Faculty, School, Department, Research Team or Staff member. Having created the news feed, you can then display that list of publications on any web page of your choice.
The advantage of this is that every time you deposit something new in the repository, the list will automatically update on your chosen web page. You never need to edit your publications list again.
Steps to embedding your feed
Create your publications list. Use the Advanced Search page to construct your publications list. If you want a personal publications list, simply search for your name. If you have a common name, your search may return publications that belong to someone else. In that case, you should keyword all your repository items with a unique ‘key’, such as ‘q73g’. You can then search for that keyword and your name and only your items will be returned by the search.
Copy your feed URL. Typically, you need to right-click on the orange RSS 2.0 icon on the search results page and copy the link.
Go to http://feed2js.org/index.php?s=build and paste your link into the URL box. If you are a member of the University of Lincoln, contact me for a better link, hosted at the university.
From this point on, you can click the ‘Preview Feed’ button at any time to see what your feed will look like. Read the listed options carefully. They allow you to choose whether you wish to display the title of the feed; whether you wish to show the full content of the feed or just the titles; whether you wish to show images or video content in the feed (if there is any in the original source), etc. Experiment by previewing the feed to see what looks best for you.
When you are happy with your feed, click the ‘Generate Javascript’ button. Copy everything inside the Get Your Code Here box. Note how the box scrolls. Copy it all!
Paste the javascript into the appropriate place in your website’s HTML code. Save your web page and examine your work. The embedded feed should fit in well with your existing web site design and use the colour scheme you have chosen for your site. If you wish to make the publications list stand out from your web page, you should read the page about dressing up your output.
There is no more you need to do. The feed will automatically update every hour or so with any new content from the source website.