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Self-driving car given UK test run at Oxford University

 

By Dave Lee Technology reporter, BBC News

A car that is able to drive itself on familiar routes has been shown off at an event at Oxford University.

The technology uses lasers and small cameras to memorise regular journeys like the commute or the school run.

The engineers and researchers behind the project are aiming to produce a low-cost system that "takes the strain" off drivers.

Other companies, such as Google, have also been testing driverless vehicle technology.

The search giant has pushed for law changes in California to allow its car to be tried out in real-life situations.

The Oxford RobotCar UK project is seeking to do the same in the UK, said Prof Paul Newman from Oxford University's department of engineering science.

"We're working with the Department of Transport to get some miles on the road in the UK," said Prof Newman, who is working alongside machine learning specialist Dr Ingmar Posner.

Gaining 'experiences'

Until the car can hit the streets, the team is testing it out in a specially-made environment at Begbroke Science Park in Oxfordshire.

Continue reading the main story

Analysis

image of Richard Westcott Richard Westcott BBC transport correspondent at Begbroke Science Park in Oxfordshire


Frankly, it is a bit disconcerting being driven around by a robotic chauffeur, but then I remember thinking the same thing when I first used cruise control on a motorway.

It's amazing how quickly you adjust to things. Within five minutes I'd got used to the wheel turning on its own, and I wasn't remotely concerned when someone walked out in front of us (it was a tightly controlled safety experiment before anyone emails in, and the car did stop in plenty of time).

Fully autonomous cars won't appear in showrooms overnight. But it seems inevitable we will be handing over more of the driving to computers as the years roll by, and this Oxford University system could well be the next step.

There are barriers of course. Makers will have to prove they are safe. Then they'll have to convince the public. And there's the sticky question of who's liable if there's a crash.

Still, most car crashes are down to the human at the wheel. Plenty of people believe robotic cars could save thousands of lives in the future.

"It's not like a racetrack - it's a light industrial site with roads and road markings," Prof Newman told the BBC.

"Crucial for us, it can show our navigation and control system working.

"It's not depending on GPS, digging up the roads or anything like that - it's just the vehicles knowing where they are because they recognise their surroundings."

The technology allows the car to "take over" when driving on routes it has already travelled.

"The key word for us is that the car gains 'experiences'," Prof Newman explained.

"The car is driven by a human, and it builds a 3D model of its environment."

When it goes on the same journey again, an iPad built into the dashboard gives a prompt to the driver - offering to let the computer "take the wheel".

"Touching the screen then switches to 'auto drive' where the robotic system takes over, Prof Newman added.

"At any time, a tap on the brake pedal will return control to the human driver."

Spinning lasers

At the moment, the complete system costs around £5,000 - but Prof Newman hopes that future models will bring the price of the technology down to as low as £100.

Autonomous technology is being tested by several car manufacturers and technology companies.

Simple self-driving tasks, such as cars that can park themselves, are already in use across the industry.

The Holy Grail is a fully-autonomous vehicle that is location-aware, safe and affordable.

An iPad display in the self-driving car

The iPad display tells the driver when the car is able to take over

Google has been testing its car for several years, with the company boasting of 300,000 computer-driven miles without an accident.

While at an earlier stage of development, Oxford University's car has significant key differences to Google's offering, Prof Newman said.

"Well if you look at it, we don't need a 3D laser spinning on the roof that's really expensive - so that's one thing straight away. I think our car has a lower profile."

He added: "Our approach is made possible because of advances in 3D laser mapping that enable an affordable car-based robotic system to rapidly build up a detailed picture of its surroundings.

"Because our cities don't change very quickly, robotic vehicles will know and look out for familiar structures as they pass by so that they can ask a human driver 'I know this route, do you want me to drive?'"

Prof Newman applauded Google's efforts in innovating in the space - but was buoyant about the role British expertise could have in the industry.

"This is all UK intellectual property, getting into the [driverless car] race.

"I would be astounded if we don't see this kind of technology in cars within 15 years. That is going to be huge."

 

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20 predictions for the next 25 years

 

From the web to wildlife, the economy to nanotechnology, politics to sport, the Observer's team of experts prophesy how the world will change – for good or bad – in the next quarter of a century

Shopping Crowd in Hangzhou

Customers crowd into a department store in Hangzhou, Zhejiang province. China will continue to rise in the coming decades. Photograph: Chinafotopress/Getty Images

1 Geopolitics: 'Rivals will take greater risks against the US'

No balance of power lasts forever. Just a century ago, London was the centre of the world. Britain bestrode the world like a colossus and only those with strong nerves (or weak judgment) dared challenge the Pax Britannica.

That, of course, is all history, but the Pax Americana that has taken shape since 1989 is just as vulnerable to historical change. In the 1910s, the rising power and wealth of Germany and America splintered the Pax Britannica; in the 2010s, east Asia will do the same to the Pax Americana.

The 21st century will see technological change on an astonishing scale. It may even transform what it means to be human. But in the short term – the next 20 years – the world will still be dominated by the doings of nation-states and the central issue will be the rise of the east.

By 2030, the world will be more complicated, divided between a broad American sphere of influence in Europe, the Middle East and south Asia, and a Chinese sphere in east Asia and Africa. Even within its own sphere, the US will face new challenges from former peripheries. The large, educated populations of Poland, Turkey, Brazil and their neighbours will come into their own and Russia will continue its revival.

Nevertheless, America will probably remain the world's major power. The critics who wrote off the US during the depression of the 1930s and the stagflation of the 1970s lived to see it bounce back to defeat the Nazis in the 1940s and the Soviets in the 1980s. America's financial problems will surely deepen through the 2010s, but the 2020s could bring another Roosevelt or Reagan.

A hundred years ago, as Britain's dominance eroded, rivals, particularly Germany, were emboldened to take ever-greater risks. The same will happen as American power erodes in the 2010s-20s. In 1999, for instance, Russia would never have dared attack a neighbour such as Georgia but in 2009 it took just such a chance.

The danger of such an adventure sparking a great power war in the 2010s is probably low; in the 2020s, it will be much greater.

The most serious threats will arise in the vortex of instability that stretches from Africa to central Asia. Most of the world's poorest people live here; climate change is wreaking its worst damage here; nuclear weapons are proliferating fastest here; and even in 2030, the great powers will still seek much of their energy here.

Here, the risk of Sino-American conflict will be greatest and here the balance of power will be decided.

Ian Morris, professor of history at Stanford University and the author of Why the West Rules – For Now (Profile Books)

2 The UK economy: 'The popular revolt against bankers will become impossible to resist'

A view of the Strata building across the city at dusk

A view across the City at dusk. Photograph: James Brittain

It will be a second financial crisis in the 2010s – probably sooner than later – that will prove to be the remaking of Britain. Confronted by a second trillion-pound bank bailout in less than 10 years, it will be impossible for the City and wider banking system to resist reform. The popular revolt against bankers, their current business model in which neglect of the real economy is embedded and the scale of their bonuses – all to be underwritten by bailouts from taxpayers – will become irresistible. The consequent rebalancing of the British economy, already underway, will intensify. Britain, in thrall to finance since 1945, will break free – spearheading a second Industrial Revolution.

In 2035, there is thus a good prospect that Britain will be the most populous (our birth rate will be one the highest in Europe), dynamic and richest European country, the key state in a reconfigured EU. Our leading universities will become powerhouses of innovation, world centres in exploiting the approaching avalanche of scientific and technological breakthroughs. A reformed financial system will allow British entrepreneurs to get the committed financial backing they need, becoming the capitalist leaders in Europe. And, after a century of trying, Britain will at last build itself a system for developing apprentices and technicians that is no longer the Cinderella of the education system.

It will not be plain sailing. Massive political turbulence in China and its conflict with the US will define part of the next 25 years – and there will be a period when the world trading and financial system retreats from openness.

How far beggar-my-neighbour competitive devaluations and protection will develop is hard to predict, but protectionist trends are there for all to see. Commodity prices will go much higher and there will be shortages of key minerals, energy, water and some basic foodstuffs.

The paradox is that this will be good news for Britain. It will force the state to re-engage with the economy and to build a matrix of institutions that will support innovation and investment, rather as it did between 1931 and 1950. New Labour began this process tremulously in its last year in office; the coalition government is following through. These will be lean years for the traditional Conservative right, but whether it will be a liberal One Nation Tory party, ongoing coalition governments or the Labour party that will be the political beneficiary is not yet sure.

The key point is that those 20 years in the middle of the 20th century witnessed great industrial creativity and an unsung economic renaissance until the country fell progressively under the stultifying grip of the City of London. My guess is that the same, against a similarly turbulent global background, is about to happen again. My caveat is if the City remains strong, in which case economic decline and social division will escalate.

Will Hutton, executive vice-chair of the Work Foundation and an Observer columnist

 

3 Global development: 'A vaccine will rid the world of Aids'

Within 25 years, the world will achieve many major successes in tackling the diseases of the poor.

Certainly, we will be polio-free and probably will have been for more than a decade. The fight to eradicate polio represents one of the greatest achievements in global health to date. It has mobilised millions of volunteers, staged mass immunisation campaigns and helped to strengthen the health systems of low-income countries. Today, we have eliminated 99% of the polio in the world and eradication is well within reach.

Vaccines that prevent diseases such as measles and rotavirus, currently available in rich countries, will also become affordable and readily available in developing countries. Since it was founded 10 years ago, the Gavi Alliance, a global partnership that funds expanded immunisation in poor countries, has helped prevent more than 5 million deaths. It is easy to imagine that in 25 years this work will have been expanded to save millions more lives by making life-saving vaccines available all over the world.

I also expect to see major strides in new areas. A rapid point-of-care diagnostic test – coupled with a faster-acting treatment regimen – will so fundamentally change the way we treat tuberculosis that we can begin planning an elimination campaign.

We will eradicate malaria, I believe, to the point where there are no human cases reported globally in 2035. We will also have effective means for preventing Aids infection, including a vaccine. With the encouraging results of the RV144 Aids vaccine trial in Thailand, we now know that an Aids vaccine is possible. We must build on these and promising results on other means of preventing HIV infection to help rid the world of the threat of Aids.

Tachi Yamada, president of the global health programme at the Bill & Melinda Gates Foundation

 

4 Energy: 'Returning to a world that relies on muscle power is not an option'

Providing sufficient food, water and energy to allow everyone to lead decent lives is an enormous challenge. Energy is a means, not an end, but a necessary means. With 6.7 billion people on the planet, more than 50% living in large conurbations, and these numbers expected to rise to more than 9 billion and 80% later in the century, returning to a world that relies on human and animal muscle power is not an option.

The challenge is to provide sufficient energy while reducing reliance on fossil fuels, which today supply 80% of our energy (in decreasing order of importance, the rest comes from burning biomass and waste, hydro, nuclear and, finally, other renewables, which together contribute less than 1%). Reducing use of fossil fuels is necessary both to avoid serious climate change and in anticipation of a time when scarcity makes them prohibitively expensive.

It will be extremely difficult. An International Energy Agency scenario that assumes the implementation of all agreed national policies and announced commitments to save energy and reduce the use of fossil fuels projects a 35% increase in energy consumption in the next 25 years, with fossil fuels up 24%. This is almost entirely due to consumption in developing countries where living standards are, happily, rising and the population is increasing rapidly.

This scenario, which assumes major increases in nuclear, hydro and wind power, evidently does not go far enough and will break down if, as many expect, oil production (which is assumed to increase 15%) peaks in much less than 25 years. We need to go much further in reducing demand, through better design and changes in lifestyles, increasing efficiency and improving and deploying all viable alternative energy sources. It won't be cheap. And in the post-fossil-fuel era it won't be sufficient without major contributions from solar energy (necessitating cost reductions and improved energy storage and transmission) and/or nuclear fission (meaning fast breeder and/or thorium reactors when uranium eventually becomes scarce) and/or fusion (which is enormously attractive in principle but won't become a reliable source of energy until at least the middle of the century).

Disappointingly, with the present rate of investment in developing and deploying new energy sources, the world will still be powered mainly by fossil fuels in 25 years and will not be prepared to do without them.

Chris Llewellyn Smith is a former director general of Cern and chair of Iter, the world fusion project, he works on energy issues at Oxford University

5 Advertising: 'All sorts of things will just be sold in plain packages'

Shinjuku districk of Tokyo

Advertising in Tokyo. Photograph: Mike Long / Alamy/Alamy

If I'd been writing this five years ago, it would have been all about technology: the internet, the fragmentation of media, mobile phones, social tools allowing consumers to regain power at the expense of corporations, all that sort of stuff. And all these things are important and will change how advertising works.

But it's becoming clear that what'll really change advertising will be how we relate to it and what we're prepared to let it do. After all, when you look at advertising from the past the basic techniques haven't changed; what seems startlingly alien are the attitudes it was acceptable to portray and the products you were allowed to advertise.

In 25 years, I bet there'll be many products we'll be allowed to buy but not see advertised – the things the government will decide we shouldn't be consuming because of their impact on healthcare costs or the environment but that they can't muster the political will to ban outright. So, we'll end up with all sorts of products in plain packaging with the product name in a generic typeface – as the government is currently discussing for cigarettes.

But it won't stop there. We'll also be nudged into renegotiating the relationship between society and advertising, because over the next few years we're going to be interrupted by advertising like never before. Video screens are getting so cheap and disposable that they'll be plastered everywhere we go. And they'll have enough intelligence and connectivity that they'll see our faces, do a quick search on Facebook to find out who we are and direct a message at us based on our purchasing history.

At least, that'll be the idea. It probably won't work very well and when it does work it'll probably drive us mad. Marketing geniuses are working on this stuff right now, but not all of them recognise that being allowed to do this kind of thing depends on societal consent – push the intrusion too far and people will push back.

Society once did a deal accepting advertising because it seemed occasionally useful and interesting and because it paid for lots of journalism and entertainment. It's not necessarily going to pay for those things for much longer so we might start questioning whether we want to live in a Blade Runner world brought to us by Cillit Bang.

Russell Davies, head of planning at the advertising agency Ogilvy and Mather and a columnist for the magazines Campaign and Wired

 

6 Neuroscience: 'We'll be able to plug information streams directly into the cortex'

By 2030, we are likely to have developed no-frills brain-machine interfaces, allowing the paralysed to dance in their thought-controlled exoskeleton suits. I sincerely hope we will not still be interfacing with computers via keyboards, one forlorn letter at a time.

I'd like to imagine we'll have robots to do our bidding. But I predicted that 20 years ago, when I was a sanguine boy leaving Star Wars, and the smartest robot we have now is the Roomba vacuum cleaner. So I won't be surprised if I'm wrong in another 25 years. Artificial intelligence has proved itself an unexpectedly difficult problem.

Maybe we will understand what's happening when we immerse our heads into the colourful night blender of dreams. We will have cracked the secret of human memory by realising that it was never about storing things, but about the relationships between things.

Will we have reached the singularity – the point at which computers surpass human intelligence and perhaps give us our comeuppance? We'll probably be able to plug information streams directly into the cortex for those who want it badly enough to risk the surgery. There will be smart drugs to enhance learning and memory and a flourishing black market among ambitious students to obtain them.

Having lain to rest the nature-nurture dichotomy at that point, we will have a molecular understanding of the way in which cultural narratives work their way into brain tissue and of individual susceptibility to those stories.

Then there's the mystery of consciousness. Will we finally have a framework that allows us to translate the mechanical pieces and parts into private, subjective experience? As it stands now, we don't even know what such a framework could look like ("carry the two here and that equals the experience of tasting cinnamon").

That line of research will lead us to confront the question of whether we can reproduce consciousness by replicating the exact structure of the brain – say, with zeros and ones, or beer cans and tennis balls. If this theory of materialism turns out to be correct, then we will be well on our way to downloading our brains into computers, allowing us to live forever in The Matrix.

But if materialism is incorrect, that would be equally interesting: perhaps brains are more like radios that receive an as-yet-undiscovered force. The one thing we can be sure of is this: no matter how wacky the predictions we make today, they will look tame in the strange light of the future.

David Eagleman, neuroscientist and writer

 

7 Physics: 'Within a decade, we'll know what dark matter is'

The next 25 years will see fundamental advances in our understanding of the underlying structure of matter and of the universe. At the moment, we have successful descriptions of both, but we have open questions. For example, why do particles of matter have mass and what is the dark matter that provides most of the matter in the universe?

I am optimistic that the answer to the mass question will be found within a few years, whether or not it is the mythical Higgs boson, and believe that the answer to the dark matter question will be found within a decade.

Key roles in answering these questions will be made by experiments at Cern's Large Hadron Collider, which started operations in earnest last year and is expected to run for most of the next 20 years; others will be played by astrophysical searches for dark matter and cosmological observations such as those from the European Space Agency's Planck satellite.

Many theoretical proposals for answering these questions invoke new principles in physics, such as the existence of additional dimensions of space or a "supersymmetry" between the constituents of matter and the forces between them, and we will discover whether these ideas are useful for physics. Both these ideas play roles in string theory, the best guess we have for a complete theory of all the fundamental forces including gravity.

Will string theory be pinned down within 20 years? My crystal ball is cloudy on this point, but I am sure that we physicists will have an exciting time trying to find out.

John Ellis, theoretical physicist at Cern and King's College London

8 Food: 'Russia will become a global food superpower'

20 predictions

A woman works on the production line of a poultry processing factory in Stary Oskol, central Russia. Photograph: Sasha Mordovets/Getty Images

When experts talk about the coming food security crisis, the date they fixate upon is 2030. By then, our numbers will be nudging 9 billion and we will need to be producing 50% more food than we are now.

By the middle of that decade, therefore, we will either all be starving, and fighting wars over resources, or our global food supply will have changed radically. The bitter reality is that it will probably be a mixture of both.

Developed countries such as the UK are likely, for the most part, to have attempted to pull up the drawbridge, increasing national production and reducing our reliance on imports.

In response to increasing prices, some of us may well have reduced our consumption of meat, the raising of which is a notoriously inefficient use of grain. This will probably create a food underclass, surviving on a carb- and fat-heavy diet, while those with money scarf the protein.

The developing world, meanwhile, will work to bridge the food gap by embracing the promise of biotechnology which the middle classes in the developed world will have assumed that they had the luxury to reject.

In truth, any of the imported grain that we do consume will come from genetically modified crops. As climate change lays waste to the productive fields of southern Europe and north Africa, more water-efficient strains of corn, wheat and barley will be pressed into service; likewise, to the north, Russia will become a global food superpower as the same climate change opens up the once frozen and massive Siberian prairie to food production.

The consensus now is that the planet does have the wherewithal to feed that huge number of people. It's just that some people in the west may find the methods used to do so unappetising.

Jay Rayner, TV presenter and the Observer's food critic

9 Nanotechnology: 'Privacy will be a quaint obsession'

Twenty years ago, Don Eigler, a scientist working for IBM in California, wrote out the logo of his employer in letters made of individual atoms. This feat was a graphic symbol of the potential of the new field of nanotechnology, which promises to rebuild matter atom by atom, molecule by molecule, and to give us unprecedented power over the material world.

Some, like the futurist Ray Kurzweil, predict that nanotechnology will lead to a revolution, allowing us to make any kind of product for virtually nothing; to have computers so powerful that they will surpass human intelligence; and to lead to a new kind of medicine on a sub-cellular level that will allow us to abolish ageing and death.

I don't think that Kurzweil's "technological singularity" – a dream of scientific transcendence that echoes older visions of religious apocalypse – will happen. Some stubborn physics stands between us and "the rapture of the nerds". But nanotechnology will lead to some genuinely transformative applications.

New ways of making solar cells very cheaply on a very large scale offer us the best hope we have for providing low-carbon energy on a big enough scale to satisfy the needs of a growing world population aspiring to the prosperity we're used to in the developed world.

We'll learn more about intervening in our biology at the sub-cellular level and this nano-medicine will give us new hope of overcoming really difficult and intractable diseases, such as Alzheimer's, that will increasingly afflict our population as it ages.

The information technology that drives your mobile phone or laptop is already operating at the nanoscale. Another 25 years of development will lead us to a new world of cheap and ubiquitous computing, in which privacy will be a quaint obsession of our grandparents.

Nanotechnology is a different type of science, respecting none of the conventional boundaries between disciplines and unashamedly focused on applications rather than fundamental understanding.

Given the huge resources being directed towards nanotechnology in China and its neighbours, this may also be the first major technology of the modern era that is predominantly developed outside the US and Europe.

Richard Jones, pro-vice-chancellor for research and innovation at the University of Sheffield

10 Gaming: 'We'll play games to solve problems'

In the last decade, in the US and Europe but particularly in south-east Asia, we have witnessed a flight into virtual worlds, with people playing games such as Second Life. But over the course of the next 25 years, that flight will be successfully reversed, not because we're going to spend less time playing games, but because games and virtual worlds are going to become more closely connected to reality.

There will be games where the action is influenced by what happens in reality; and there will be games that use sensors so that we can play them out in the real world – a game in which your avatar is your dog, which wears a game collar that measures how fast it's running and whether or not it's wagging its tail, for example, where you play with your dog to advance the narrative, as opposed to playing with a virtual character. I can imagine more physical activity games, too, and these might be used to harness energy – peripherals like a dance pad that actually captures energy from your dancing on top of it.

Then there will be problem-solving games: there are already a lot of games in which scientists try to teach gamers real science – how to build proteins to cure cancer, for example. One surprising trend in gaming is that gamers today prefer, on average, three to one to play co-operative games rather than competitive games. Now, this is really interesting; if you think about the history of games, there really weren't co-operative games until this latest generation of video games. In every game you can think of – card games, chess, sport – everybody plays to win. But now we'll see increasing collaboration, people playing games together to solve problems while they're enjoying themselves.

There are also studies on how games work on our minds and our cognitive capabilities, and a lot of science suggests you can use games to treat depression, anxiety and attention-deficit disorder. Making games that are both fun and serve a social purpose isn't easy – a lot of innovation will be required – but gaming will become increasingly integrated into society.

Jane McGonigal, director of games research & development at the Institute for the Future in California and author of Reality Is Broken: Why Games Make Us Happy and How They Can Help Us Change the World (Penguin)

11 Web/internet: 'Quantum computing is the future'

The open web created by idealist geeks, hippies and academics, who believed in the free and generative flow of knowledge, is being overrun by a web that is safer, more controlled and commercial, created by problem-solving pragmatists.

Henry Ford worked out how to make money by making products people wanted to own and buy for themselves. Mark Zuckerberg and Steve Jobs are working out how to make money from allowing people to share, on their terms.

Facebook and Apple are spawning cloud capitalism, in which consumers allow companies to manage information, media, ideas, money, software, tools and preferences on their behalf, holding everything in vast, floating clouds of shared data. We will be invited to trade invasions into our privacy – companies knowing ever more about our lives – for a more personalised service. We will be able to share, but on their terms.

Julian Assange and the movement that has been ignited by WikiLeaks is the most radical version of the alternative: a free, egalitarian, open and public web. The fate of this movement will be a sign of things to come. If it can command broad support, then the open web has a chance to remain a mainstream force. If, however, it becomes little more than a guerrilla campaign, then the open web could be pushed to the margins, along with national public radio.

By 2035, the web, as a single space largely made up of webpages accessed on computers, will be long gone.

As the web goes mobile, those who pay more will get faster access. We will be sharing videos, simulations, experiences and environments, on a multiplicity of devices to which we'll pay as much attention as a light switch.

Yet, many of the big changes of the next 25 years will come from unknowns working in their bedrooms and garages. And by 2035 we will be talking about the coming of quantum computing, which will take us beyond the world of binary, digital computing, on and off, black and white, 0s and 1s.

The small town of Waterloo, Ontario, which is home to the Perimeter Institute, funded by the founder of BlackBerry, currently houses the largest collection of theoretical physicists in the world.

The bedrooms of Waterloo are where the next web may well be made.

Charles Leadbeater, author and social entrepreneur

12 Fashion: 'Technology creates smarter clothes'

Gareth Pugh show

A model on the catwalk during the Gareth Pugh show at London Fashion Week in 2008. Photograph: Leon Neal/AFP/Getty Images

Fashion is such an important part of the way in which we communicate our identity to others, and for a very long time it's meant dress: the textile garments on our body. But in the coming decades, I think there'll be much more emphasis on other manifestations of fashion and different ways of communicating with each other, different ways of creating a sense of belonging and of making us feel great about ourselves.

We're already designing our identities online – manipulating imagery to tell a story about ourselves. Instead of meeting in the street or in a bar and having a conversation and looking at what each other is wearing, we're communicating in some depth through these new channels. With clothing, I think it's possible that we'll see a polarisation between items that are very practical and those that are very much about display – and maybe these are not things that you own but that you borrow or share.

Technology is already being used to create clothing that fits better and is smarter; it is able to transmit a degree of information back to you. This is partly driven by customer demand and the desire to know where clothing comes from – so we'll see tags on garments that tell you where every part of it was made, and some of this, I suspect, will be legislation-driven, too, for similar reasons, particularly as resources become scarcer and it becomes increasingly important to recognise water and carbon footprints.

However, it's not simply an issue of functionality. Fashion's gone through a big cycle in the last 25 years – from being something that was treasured and cherished to being something that felt disposable, because of a drop in prices. In fact, we've completely changed our relationship towards clothes and there's a real feeling among designers who I work with that they're trying to work back into their designs an element of emotional content.

I think there's definitely a place for technology in creating a dialogue with you through your clothes.

Dilys Williams, designer and the director for sustainable fashion at the London College of Fashion

13 Nature: 'We'll redefine the wild'

We all want to live in a world where species such as tigers, the great whales, orchids and coral reefs can persist and thrive and I am sure that the commitment that people have to maintaining the spectacle and diversity of life will continue. Over the past 50 years or so, there has been growing support for nature conservation. When we understand the causes of species losses, good conservation actions can and do reverse the trends.

But it is going to become much harder. The human population has roughly doubled since the 1960s and will increase by another third by 2030. Demands for food, water and energy will increase, inevitably in competition with other species. People already use up to 40% of the world's primary production (energy) and this must increase, with important consequences for nature.

In the UK, some familiar species will become scarcer as our rare habitats (mires, bogs and moorlands) are lost. We will be seeing the effects from gradual warming that will allow more continental species to live here, and in our towns and cities we'll probably have more species that have become adapted to living alongside people.

We can conserve species when we really try, so I'm confident that the charismatic mega fauna and flora will mostly still persist in 2035, but they will be increasingly restricted to highly managed and protected areas. The survivors will be those that cope well with people and those we care about enough to save. Increasingly, we won't be living as a part of nature but alongside it, and we'll have redefined what we mean by the wild and wilderness.

Crucially, we are still rapidly losing overall biodiversity, including soil micro-organisms, plankton in the oceans, pollinators and the remaining tropical and temperate forests. These underpin productive soils, clean water, climate regulation and disease-resistance. We take these vital services from biodiversity and ecosystems for granted, treat them recklessly and don't include them in any kind of national accounting.

Georgina Mace, professor of conservation science and director of the Natural Environment Research Council's Centre for Population Biology, Imperial College London

14 Architecture: What constitutes a 'city' will change

In 2035, most of humanity will live in favelas. This will not be entirely wonderful, as many people will live in very poor housing, but it will have its good side. It will mean that cities will consist of series of small units organised, at best, by the people who know what is best for themselves and, at worst, by local crime bosses.

Cities will be too big and complex for any single power to understand and manage them. They already are, in fact. The word "city" will lose some of its meaning: it will make less and less sense to describe agglomerations of tens of millions of people as if they were one place, with one identity. If current dreams of urban agriculture come true, the distinction between town and country will blur. Attempts at control won't be abandoned, however, meaning that strange bubbles of luxury will appear, like shopping malls and office parks. To be optimistic, the human genius for inventing social structures will mean that new forms of settlement we can't quite imagine will begin to emerge.

All this assumes that environmental catastrophe doesn't drive us into caves. Nor does it describe what will happen in Britain, with a roughly stable population and a planning policy dedicated to preserving the status quo as much as possible. Britain in 25 years' time may look much as it does now, which is not hugely different from 25 years ago. Rowan Moore, Observer architecture correspondent

15 Sport: 'Broadcasts will use holograms'

Globalisation in sport will continue: it's a trend we've seen by the choice of Rio for the 2016 Olympics and Qatar for the 2022 World Cup. This will mean changes to traditional sporting calendars in recognition of the demands of climate and time zones across the planet.

Sport will have to respond to new technologies, the speed at which we process information and apparent reductions in attention span. Shorter formats, such as Twenty20 cricket and rugby sevens, could aid the development of traditional sports in new territories.

The demands of TV will grow, as will technology's role in umpiring and consuming sport. Electronics companies are already planning broadcasts using live holograms. I don't think we'll see an acceptance of performance-enhancing drugs: the trend has been towards zero tolerance and long may it remain so.

Mike Lee, chairman of Vero Communications and ex-director of communications for London's 2012 Olympic bid

16 Transport: 'There will be more automated cars'

It's not difficult to predict how our transport infrastructure will look in 25 years' time – it can take decades to construct a high-speed rail line or a motorway, so we know now what's in store. But there will be radical changes in how we think about transport. The technology of information and communication networks is changing rapidly and internet and mobile developments are helping make our journeys more seamless. Queues at St Pancras station or Heathrow airport when the infrastructure can't cope for whatever reason should become a thing of the past, but these challenges, while they might appear trivial, are significant because it's not easy to organise large-scale information systems.

The instinct to travel is innate within us, but we will have to do it in a more carbon-efficient way. It's hard to be precise, but I think we'll be cycling and walking more; in crowded urban areas we may see travelators – which we see in airports already – and more scooters. There will be more automated cars, like the ones Google has recently been testing. These driverless cars will be safer, but when accidents do happen, they may be on the scale of airline disasters. Personal jetpacks will, I think, remain a niche choice.

Frank Kelly, professor of the mathematics of systems at Cambridge University, and former chief scientific adviser to the DfT

17 Health: 'We'll feel less healthy'

overweight woman

An overweight woman in Maryland, USA. Photograph: Tim Sloan/AFP/Getty Images

Health systems are generally quite conservative. That's why the more radical forecasts of the recent past haven't quite materialised. Contrary to past predictions, we don't carry smart cards packed with health data; most treatments aren't genetically tailored; and health tourism to Bangalore remains low. But for all that, health is set to undergo a slow but steady revolution. Life expectancy is rising about three months each year, but we'll feel less healthy, partly because we'll be more aware of the many things that are, or could be, going wrong, and partly because more of us will be living with a long-term condition.

We'll spend more on health but also want stronger action to influence health. The US Congressional Budget Office forecasts that US health spending will rise from 17% of the economy today to 25% in 2025 and 49% in 2082. Their forecasts may be designed to shock but they contain an important grain of truth. Spending on health and jobs in health is bound to grow.

Some of that spending will go on the problems of prosperity – obesity, alcohol consumption and injuries from extreme sports. Currently fashionable ideas of "nudge" will have turned out to be far too weak to change behaviours. Instead, we'll be more in the realms of "shove" and "push", with cities trying to reshape whole environments to encourage people to walk and cycle.

By 2030, mental health may at last be treated on a par with physical health. Medicine may have found smart drugs for some conditions but the biggest impact may be achieved from lower-tech actions, such as meditation in schools or brain gyms for pensioners.

Healthcare will look more like education. Your GP will prescribe you a short course on managing your diabetes or heart condition, and when you get home there'll be an e-tutor to help you and a vast array of information about your condition.

Almost every serious observer of health systems believes that the great general hospitals are already anachronistic, but because hospitals are where so much of the power lies, and so much of the public attachment, it would be a brave forecaster who suggested their imminent demise.

Geoff Mulgan, chief executive of the Young Foundation

18 Religion: 'Secularists will flatter to deceive'

Over the next two and a half decades, it is quite possible that those Brits who follow a religion will continue both to fall in number and also become more orthodox or fundamentalist. Similarly, organised religions will increasingly work together to counter what they see as greater threats to their interests – creeping agnosticism and secularity.

Another 10 years of failure by the Anglican church to face down the African-led traditionalists over women bishops and gay clerics could open the question of disestablishment of the Church of England. The country's politicians, including an increasingly gay-friendly Tory party, may find it difficult to see how state institutions can continue to be associated with an image of sexism and homophobia.

I predict an increase in debate around the tension between a secular agenda which says it is merely seeking to remove religious privilege, end discrimination and separate church and state, and organised orthodox religion which counterclaims that this would amount to driving religious voices from the public square.

Despite two of the three party leaders being professed atheists, the secular tendency in this country still flatters to deceive. There is, at present, no organised, non-religious, rationalist movement. In contrast, the forces of organised religion are better resourced, more organised and more politically influential than ever before.

Dr Evan Harris, author of a secularist manifesto

19 Theatre: 'Cuts could force a new political fringe'

The theatre will weather the recent cuts. Some companies will close and the repertoire of others will be safe and cautious; the art form will emerge robust in a decade or so. The cuts may force more young people outside the existing structures back to an unsubsidised fringe and this may breed different types of work that will challenge the subsidised sector.

Student marches will become more frequent and this mobilisation may breed a more politicised generation of theatre artists. We will see old forms from the 1960s re-emerge (like agit prop) and new forms will be generated to communicate ideology and politics.

More women will emerge as directors, writers and producers. This change is already visible at the flagship subsidised house, the National Theatre, where the repertoire for bigger theatres like the Lyttelton already includes directors like Marianne Elliott and Josie Rourke, and soon the Cottesloe will start to embrace the younger generation – Polly Findlay and Lyndsey Turner.

Katie Mitchell, theatre director

20 Storytelling: 'Eventually there'll be a Twitter classic'

Are you reading fewer books? I am and reading books is sort of my job. It's just that with the multifarious delights of the internet, spending 20 hours in the company of one writer and one story needs motivation. It's worth doing, of course; like exercise, its benefits are many and its pleasures great. And yet everyone I know is doing it less. And I can't see that that trend will reverse.

That's the bad news. Twenty-five years from now, we'll be reading fewer books for pleasure. But authors shouldn't fret too much; e-readers will make it easier to impulse-buy books at 4am even if we never read past the first 100 pages.

And stories aren't becoming less popular – they're everywhere, from adverts to webcomics to fictional tweets – we're only beginning to explore the exciting possibilities of web-native literature, stories that really exploit the fractal, hypertextual way we use the internet.

My guess is that, in 2035, stories will be ubiquitous. There'll be a tube-based soap opera to tune your iPod to during your commute, a tale (incorporating on-sale brands) to enjoy via augmented reality in the supermarket. Your employer will bribe you with stories to focus on your job.

Most won't be great, but then most of everything isn't great – and eventually there'll be a Twitter-based classic.

Naomi Alderman, novelist and games writer

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How to Study Less by Learning Things Once

 

Study less, learn more.

Books

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10 YouTube Videos Every Entrepreneur Should Watch

 

10 YT videos for entrepreneurs

 

 

How can you hire highly skilled workers, persuade them to work for free, and then release your product to the masses for free? It's not impossible; in fact, several active companies such as Linux and Wikipedia has accomplished this feat. In this video, the Royal Society for the encouragement of Arts, Manufactures, and Commerce gives a comprehensive animated seminar on what motivates workers to work, and how to take advantage of that as a business. This video, which is animated entirely on a whiteboard, is extremely valuable, especially for those marketing and sales professionals. The animation is clean, clever, and imaginative, and illustrates the various studies and research used in this piece extremely well.

 

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WHO issues roadmap to scale up international response to the Ebola outbreak in west Africa

 


The World Health Organization (WHO) has issued a roadmap to guide and coordinate the international response to the outbreak of Ebola virus disease in west Africa.

The aim is to stop ongoing Ebola transmission worldwide within 6-9 months, while rapidly managing the consequences of any further international spread. It also recognizes the need to address, in parallel, the outbreak's broader socioeconomic impact.

It responds to the urgent need to dramatically scale up the international response. Nearly 40% of the total number of reported cases have occurred within the past three weeks.

The roadmap was informed by comments received from a large number of partners, including health officials in the affected countries, the African Union, development banks, other UN agencies, Médecins Sans Frontières (MSF), and countries providing direct financial support.

It will serve as a framework for updating detailed operational plans. Priority is being given to needs for treatment and management centres, social mobilization, and safe burials. These plans will be based on site-specific data that are being set out in regular situation reports, which will begin this week.

The situation reports map the hotspots and hot zones, present epidemiological data showing how the outbreak is evolving over time, and communicate what is known about the location of treatment facilities and laboratories, together with data needed to support other elements of the roadmap.

The roadmap covers the health dimensions of the international response. These dimensions include key potential bottlenecks requiring international coordination, such as the supply of personal protective equipment, disinfectants, and body bags.

The WHO roadmap will be complemented by the development of a separate UN-wide operational platform that brings in the skills and capacities of other agencies, including assets in the areas of logistics and transportation. The UN-wide platform aims to facilitate the delivery of essential services, such as food and other provisions, water supply and sanitation, and primary health care.

Resource flows to implement the roadmap will be tracked separately, with support from the World Bank.


Story Source:

The above story is based on materials provided by World Health Organization. Note: Materials may be edited for content and length.

20 things you didn’t know

 

Things you didn't know about sex

20 Things You Didn't Know About Sex

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Biological transistor enables computing within living cells, study says

 

Biiological transistor

 

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Magnetic memory and logic could achieve ultimate energy efficiency

 

Magnetic memory and logic (click to activate the link)

 

Nanomagnetic computers use tiny bar magnets to store and process information.

Nanomagnetic computers use tiny bar magnets to store and process information. The interactions between the polarized, north-south magnetic fields of closely spaced magnets allow logic operations like those in conventional transistors. (Credit: Bokor lab, UC Berkeley)

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Copper shines as flexible conductor

 


Sensors made with copper are cheap, light, flexible and highly conductive.

Bend them, stretch them, twist them, fold them: modern materials that are light, flexible and highly conductive have extraordinary technological potential, whether as artificial skin or electronic paper.

Making such concepts affordable enough for general use remains a challenge but a new way of working with copper nanowires and a PVA "nano glue" could be a game-changer.

Previous success in the field of ultra-lightweight "aerogel monoliths" has largely relied on the use of precious gold and silver nanowires.

By turning instead to copper, both abundant and cheap, researchers at Monash University and the Melbourne Centre for Nanofabrication have developed a way of making flexible conductors cost-effective enough for commercial application.

"Aerogel monoliths are like kitchen sponges but ours are made of ultra fine copper nanowires, using a fabrication process called freeze drying," said lead researcher Associate Professor Wenlong Cheng, from Monash University's Department of Chemical Engineering.

"The copper aerogel monoliths are conductive and could be further embedded into polymeric elastomers -- extremely flexible, stretchable materials -- to obtain conducting rubbers."

Despite its conductivity, copper's tendency to oxidation and the poor mechanical stability of copper nanowire aerogel monoliths mean its potential has been largely unexplored.

The researchers found that adding a trace amount of poly(vinyl alcohol) (PVA) to their aerogels substantially improved their mechanical strength and robustness without impairing their conductivity.

What's more, once the PVA was included, the aerogels could be used to make electrically conductive rubber materials without the need for any prewiring. Reshaping was also easy.

"The conducting rubbers could be shaped in arbitrary 1D, 2D and 3D shapes simply by cutting, while maintaining the conductivities," Associate Professor Cheng said.

The versatility extends to the degree of conductivity. "The conductivity can be tuned simply by adjusting the loading of copper nanowires," he said. "A low loading of nano wires would be appropriate for a pressure sensor whereas a high loading is suitable for a stretchable conductor."

Affordable versions of these materials open up the potential for use in a range of new-generation concepts: from prosthetic skin to electronic paper, for implantable medical devices, and for flexible displays and touch screens.

They can be used in rubber-like electronic devices that, unlike paper-like electronic devices, can stretch as well as bend. They can also be attached to topologically complex curved surfaces, serving as real skin-like sensing devices, Associate Professor Cheng said.

In their report, published recently in ACS Nano, the researchers noted that devices using their copper-based aerogels were not quite as sensitive as those using gold nanowires, but had many other advantages, most notably their low-cost materials, simpler and more affordable processing, and great versatility.


Story Source:

The above story is based on materials provided by Monash University. Note: Materials may be edited for content and length.


Journal Reference:

  1. Yue Tang, Shu Gong, Yi Chen, Lim Wei Yap, Wenlong Cheng. Manufacturable Conducting Rubber Ambers and Stretchable Conductors from Copper Nanowire Aerogel Monoliths. ACS Nano, 2014; 8 (6): 5707 DOI: 10.1021/nn502702a