Monthly Archives: September 2009

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Back in business

Hi folks;

Once again, my apologies for the flaky state of the site over the last three or four days; since Sunday, a lot of people (including myself) have found Futurismic to be either ludicrously slow to load or completely inaccessible. The most common cyberattack causing websites to face downtime is a distributed denial-of-service (DDoS) attack. A DDoS attack floods a web server (or a network resource) with simultaneous requests through a large group of compromised computer systems. This attack overloads the server and crashes it.

I got an email from the hosting company this morning telling me that they’ve moved the site to a new server, which should hopefully fix the problem permanently… or as permanently as web hosting ever gets fixed, at least. if any of you have  a recommended wordpress hosting service, please share it with me in the comments.

Every site needs web hosting. Put simply web hosting is where the files, information and content that create your website live. These files are stored on a remote computer which is known as a host.  So its vitally important that you choose a good reliable web host that suits the needs of your website. When you visit a website the files that create it are shown within your web browser. So its vitally important that you choose a good reliable web host that suits the needs of your website.

Thanks for your patience! 🙂

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The demise of the humble bricklayer

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R.O.B. bricklaying robotVia Chairman Bruce comes bad news for anyone hoping for a lasting career at the manual-labour end of the construction industry. A trailer-mounted bricklaying robot (imaginatively named “R.O.B.”) will be building its second stylishly curved wall on Pike Street, New York later this year. [image lifted from linked post at Dezeen]

OK, so it’s a little large and ungainly at the moment (and probably has a price tag to match), but that will change – plus it won’t take breaks, go home to sleep, wolf-whistle at passers-by or attempt to form a union, which will doubtless add hugely to its appeal to corporate buyers.

Perhaps you’re thinking that concrete-and-rebar specialists will still be able to find work? Don’t forget that buildings can be 3d-printed now, too…

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India to export thorium nuclear reactors

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wheels_and_cablesCharles Stross highlights the news that the Indian government is preparing to manufacture and export nuclear reactors that use the thorium fuel cycle:

The original design is fuelled by a mix of uranium-233 and plutonium bred from thorium using fast neutron power reactors earlier in a thorium fuel cycle. The LEU variant is suitable for export because it does away with the plutonium, replacing it with uranium enriched to 19.75% uranium-235.

As countries like India and China continue to industrialise we will see more and more technological innovation from these developing countries. Both India and China are hungry for cheap energy to raise the standard of living for their people. This thorium reactor design is important because it can be used by developing countries with minimal industrial infrastructure:

The design is intended for overseas sales, and the AEC [India’s Atomic Energy Commission] says that “the reactor is manageable with modest industrial infrastructure within the reach of developing countries.”

The reactor design is intended minimise the threat of nuclear proliferation, as it does not produce the right amount of bomb-worthy plutonium-239, and the long-term high-level waste is also minimised. All in all, it looks like a really excellent piece of hardware, and a thoroughly Good Thing.

Thorium is more plentiful than uranium and offers the opportunity of a long-term low-CO2 energy base. I strongly suspect that when the brown-outs start there will be huge public demand for a solution, as it will be difficult for the UK to generate all its energy needs using renewables, and it could well be that the UK ends up buying thorium reactors from India or pebble-bed reactors from China to secure our energy future.

[via Charles Stross, from World Nuclear News][image from Shahram Sharif on flickr]

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Money can buy privacy… and surveillance

CCTV camerasThe world may be becoming something of a panopticon, but you can always buy yourself a safe haven… provided you’ve got the necessary cash, of course. Russian billionaire businessman Roman Abramovich isn’t feeling the credit crunch, it seems, as one of the latest additions to his private “yacht” (which looks bigger than most commercial passenger ferries, to be honest) is a laser-screening system for preventing sneaky photography:

The 557-foot boat Eclipse, the price tag of which has almost doubled since original plans were drawn to almost $1.2 billion, set sail this week with a slew of show-off features, from two helipads, two swimming pools and six-foot movie screens in all guest cabins, to a mini-submarine and missile-proof windows to combat piracy.

It might not seem like somebody with such ostentatious tastes would crave privacy, but along with these expensive toys, Ambramovich has installed an anti-paparazzi “shield”. Lasers sweep the surroundings and when they detect a CCD, they fire a bolt of light right at the camera to obliterate any photograph. According to the Times, these don’t run all the time, so friends and guests should still be able to grab snaps. Instead, they will be activated when guards spot the scourge of professional photography, paparazzi, loitering nearby.

Now, you’ll not see me shedding any tears for the poor paparazzi, but that’s some potentially nasty technology right there. For example, the UK government has become obsessively paranoid about photography of late – where might they decide to install something similar? Y’know, to prevent terrorism?

Somewhat further down the financial scale (and hence more accessible to the anxious middle classes), technologies are now available to surveil your own children at all times – like a GPS-enabled wristwatch that will plot your youngster’s location on Google Maps [via SlashDot]:

The watch, which is designed in bright colours to appeal to children, can be tightly fastened to a child’s wrist and sends an alert if forcibly removed.

Parents can see the location of their child on Google maps by clicking ‘where r you’ on a secure website or texting ‘wru’ to a special number. Safe zones can also be programmed with parents being alerted if their child strays outside this zone.

The makers of the num8 watch claim it gives peace of mind to parents and makes children more independent but critics say tagging children like this is a step too far in paranoia about child safety.

File me under the latter bracket, please – although I suppose tracking your kids via GPS is slightly preferable to keeping them shut in the house all the time in response to tabloid-inflated fears about predators. Whichever smart and exploitative bugger manages to mash up this technology with an overlay map of suspected paedophiles will be raking in the money… probably enough to buy a photo-screened yacht. [image by killbox]

Which highlights the real problem, I think – the supposed security of real-time surveillance, and the immunity to it, are both functions of affluence.  Will the gap between rich and poor become increasingly defined by the degree to which one can chose one’s place in the panopticon?

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Karl Schroeder: one-way tickets to Mars are a cost issue, not a risk issue

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exploding rocketWe’ve mentioned the one-way option for Mars missions here a few times recently, the latest being in response to the Krauss op-ed in the New York Times. Earning himself his second Futurismic mention in as many days, Karl Schroeder tears down the “poisonous meme” that claims the journey to Mars is too dangerous – the reality is that it’s too expensive.

The objections all sound reasonable:  too much radiation!  Too far away!  Zero gravity is too debilitating!  Too expensive!

All of these objections are true, while at the same time they’re all wildly wrong, and largely for the same reasons.  In fact they’re all true only if getting from Earth to orbit remains as expensive as it is now.

Consider the seemingly insurmountable problem of radiation that Krauss complains of in his piece.  What’s the solution to radiation?  Shielding.  Is shielding a spacecraft impossible, or even difficult?  No, actually it’s easy.  Two meters of water around the crew cabin are enough to solve the problem of radiation in the inner solar system.  The problem is not the shielding; it’s the cost of shipping the water up to orbit that is the problem.

Ditto for, oh, let’s say zero gravity.  No astronaut should ever have to put up with zero gravity for more than a day or two at a time; the simple solution to the debilitating effects of freefall is to spin the spacecraft.  To do it in a manner comfortable to to the astronauts, you need a long boom arm, which might be heavy and awkward to lift from Earth.  The point is, the solution is easy.

Too far away?  If a space voyage is going to take months or years, there are two simple solutions:  send the ship faster, by using more propellant; or bring along more supplies.  Both of these solutions are primarily constrained by the cost of bringing stuff up from Earth.

That cost is, of course, the cost of old-school 1960s vintage chemical rocketry – $10,000 for every kilogram of stuff you want to get into orbit. Schroeder lists a number of alternatives, some of which you’ll have read about here or elsewhere: magnetic accelerators, laser propulsion launchers and so on… all with much lower to-orbit costs, all within the reach of NASA budgets – if they abandoned rocketry.

The question stands, though: given that NASA is well aware of its own budgetary problems, why is it clinging to such dated and inefficient methods? Is it for the prestige, the showiness, the rocket’s red glare? (You have to admit, a Space Shuttle launch is pretty impressive to watch… when it works.) [image by jurvetson]

But back to Schroeder:

Space is only a costly and dangerous destination if you insist on using 1960s technology to reach it.  Once NASA–or more likely the private sector–finally abandons that route, what was impossible will become easy.  —I only fear that the meme of space’s inaccessibility will prevent us from ever building the launch infrastructure that will prove it wrong; at this point, the meme looks like it’s turning into a self-fulfilling prophecy.

That would be a sad thing – to turn our backs on space, not because it was genuinely impossible, but because we’d allowed ourselves to be convinced that it was.