Showing posts with label Elon Musk. Show all posts
Showing posts with label Elon Musk. Show all posts

Wednesday 21 February 2018

Teslas in space: trivialising the final frontier

Earlier this month Elon Musk's SpaceX achieved great kudos thanks to the maiden flight of the Falcon Heavy rocket and recovery of two of the three first stage boosters. Although it has the fourth highest payload capacity in the history of spaceflight, the test did not include satellites or ballast but the unlikely shape of Musk's own $100,000 Tesla Roadster, complete with dummy astronaut. Perhaps unsurprisingly, the unique payload of this largely successful mission has led to it being labelled everything from a pioneering achievement to a foolish publicity stunt. So what's the truth behind it?

I discussed the near-future development of private spaceflight back in 2012 and if there's one thing that the programmes mentioned therein have in common is that they have all since been delayed. Rocket technology has proved to be more tricky than the current crop of entrepreneurs envisaged, Elon Musk himself giving the Falcon Heavy a fifty-fifty chance of success. As it was, two of the core booster's engines failed to fire before touchdown, leading it to crash into the sea. Musk admitted that due to safety concerns this design will never - as originally intended - be used to launch crews into space. But a successful first flight for such a large vehicle had the potential to bring enormous kudos - translate that to customers - at the expense of his lagging rivals.

It could be argued that with such a high probability of getting egg on his face, Musk was right to choose a joke payload, albeit an expensive one, as opposed to boring ballast or a (presumably heavily-insured) set of commercial satellites. Even so, some critics have argued that there is enough manmade junk floating around the solar system without adding the Tesla, never mind the slight risk of a crash-landing on Mars. The latter might seem of little import, but there's presumably the risk of microbial contamination - it's thought some bacteria could survive atmospheric entry - and as yet we're far from certain whether Martian microbes might exist in places sheltered from the ultraviolet flux.

However, researchers have run computer simulations and if anything, Earth stands a far greater chance of being the Tesla's target, albeit millions of years in the future. Indeed, Venus is the next most likely, with Mars a poor third. That's if the car doesn't fall apart long before then due to the radiation, temperature variations and micrometeoroid impacts: the 70,000km/h or so velocity means that even dust grains can behave like bullets and there's plenty of natural rock fragments whipping around the solar system.

Musk has said that his low-cost, private alternative to state-led missions is intended to spur competitors into developing similarly reusable launch vehicles, bearing in mind that fossil fuel-powered rockets are likely to be the only way into space for some time to come. Talking of Government-controlled space programmes, NASA has long since decided to concentrate on research and development and leave much of the day-to-day operations, such as cargo runs to the International Space Station, to commercial outfits. In other words, Elon Musk is only touting for business much like any other corporation. His customers already include the communications company Arabsat and the United States Air Force, so interest in the new rocket is clearly building.

As to whether Musk should have fired a $100,000 car on a one-way trip (thanks to orbital mechanics, it's not strictly speaking one-way of course but let's face it, he's never going to get it back) it also comes down to a matter of taste, when you consider the environmental and economic crises facing humanity and the planet in general. The reusability factor to the Falcon Heavy rocket design does assuage the ecological aspect, but only slightly; rockets are a pretty primitive form of transport with some hefty pollutant statistics. Unfortunately, they currently have the monopoly on any space travel for the foreseeable future - I wonder if Virgin Galactic passengers could be encouraged to buy carbon credits?

A rather smaller rocket also launched into the headlines last month in the form of the US-New Zealand Rocket Lab's Electron vehicle. Cheekily called 'Still Testing', this second - and first successful - flight of the two-stage Electron paves the way for New Zealand-based launches of small satellites at comparatively low cost. This particular mission launched several commercial satellites plus the controversial 'Humanity Star', a reflective one-metre geodesic sphere that has been likened to both a disco ball and 'glittery space garbage'. Set to decay and burn up after nine months, Rocket Lab's founder Peter Beck intended it to generate a sense of perspective among the wider public but it has instead instigated a lot of negative commentary from astronomers, environmentalists and people who enjoy getting annoyed about almost anything.

Again, all publicity might seem like good publicity, but it goes to show that many people like their space technology serious and on the level, not frivolous or containing airy gestures (or should that be vacuous ones, space being space and all?) Even this individual rocket's name goes against tradition, which usually comes down to either Greco-Roman machismo or dull acronyms such as NASA's new SLS. In addition, to the unaided eye the cosmos appears to be largely pristine and pure, lacking the visual noise that commercialism bombards us with down here on Earth. Therefore the Humanity Star appears a bit tacky and is unlikely to supply the inspiration that Beck intended, a symbol that is somewhat too puny for its lofty purpose.

An older example of an out-and-out publicity stunt at the edge of space is Felix Baumgartner's record-breaking freefall jump back in October 2012. The Red Bull Stratos mission claimed to be a serious technology test (of for example, the reefed parachute design) as well as a medical experiment on the effects of supersonic travel on a human body outside a vehicle but ultimately it appeared to be an opportunity to fulfil, at least approximately, the company slogan 'Red Bull gives you wings'.

It could be argued that the jump aided research into escaping from damaged spacecraft, but even my limited understanding of the physics involved suggests an enormous difference between Baumgartner's slow, helium-led ascent and the velocity of both newly-launched rockets and deorbiting spacecraft. The mission also claimed to be at the 'edge of space' but at thirty-nine kilometres above the Earth, the altitude was far below the nominal one hundred kilometre boundary known as the Kármán line. As so often the case in advertising, why adhere to the facts when hyperbole will help to sell your product instead? Although the jump broke a fifty-two year old free-fall altitude record, it has since been beaten in much quieter fashion by Google's Senior Vice President of Knowledge, no less. In October 2014 Dr. Alan Eustace undertook a slightly higher self-funded jump that was devoid of publicity, suggesting that far from being a technological milestone, these jumps are more akin to climbing Mount Everest: once the pioneer has been successful, the mission becomes relatively routine.

With a cynical eye it would be very easy to claim that these three missions are the result of over-inflated egos and crass commercialism. The practical issue of unnecessary space junk, combined with the uneasy impression that the universe is now available as a billboard for selling stuff, have soured these projects for many. Several space stations have already utilised food tie-ins while in 1999 Coca Cola investigated projecting advertising onto the moon, only to find the lasers required would be too powerful to be allowed (perhaps they should have contacted Dr Evil?)

In 1993 the US Government banned 'obtrusive' advertising in space, but this hasn't stopped companies in other nations from planning such stunts. A Japanese soft drink manufacturer announced in 2014 that it wanted to land a capsule of its powered Pocari Sweat beverage (sounds delightful) on the moon, the launch vehicle being none other than a SpaceX Falcon rocket. With NASA's increasing reliance on private companies, is it only a matter of time before the final frontier becomes a mere extension of the noisy, polluted, consumer goods-obsessed environment we call civilisation? Frankly, we've made a pig's ear of our planet, so how about we don't make profit margins our number one concern in outer space too?

Tuesday 12 December 2017

Robotic AI: key to utopia or instrument of Armageddon?

Recent surveys around the world suggest the public feel they don't receive enough science and non-consumer technology news in a format they can readily understand. Despite this, one area of STEM that captures the public imagination is an ever-growing concern with the development of self-aware robots. Perhaps Hollywood is to blame. Although there is a range of well-known cute robot characters, from WALL-E to BB-8 (both surely designed with a firm eye on the toy market), Ex Machina's Ava and the synthetic humans of the Blade Runner sequel appear to be shaping our suspicious attitudes towards androids far more than real-life projects are.

Then again, the idea of thinking mechanisms and the fears they bring out in us organic machines has been around far longer than Hollywood. In 1863 the English novelist Samuel Butler wrote an article entitled Darwin among the Machines, wherein he recommended the destruction of all mechanical devices since they would one day surpass and likely enslave mankind. So perhaps the anxiety runs deeper than our modern technocratic society. It would be interesting to see - if such concepts could be explained to them - whether an Amazonian tribe would rate intelligent, autonomous devices as dangerous. Could it be that it is the humanoid shape that we fear rather than the new technology, since R2-D2 and co. are much-loved, whereas the non-mechanical Golem of Prague and Frankenstein's monster are pioneering examples of anthropoid-shaped violence?

Looking in more detail, this apprehension appears to be split into two separate concerns:

  1. How will humans fare in a world where we are not the only species at our level of consciousness - or possibly even the most intelligent?
  2. Will our artificial offspring deserve or receive the same rights as humans - or even some animals (i.e. appropriate to their level of consciousness)?

1) Utopia, dystopia, or somewhere in the middle?

The development of artificial intelligence has had a long and tortuous history, with the top-down and bottom-up approaches (plus everything in between) still falling short of the hype. Robots as mobile mechanisms however have recently begun to catch up with fiction, gaining complete autonomy in both two- and four-legged varieties. Humanoid robots and their three principal behavioural laws have been popularised since 1950 via Isaac Asimov's I, Robot collection of short stories. In addition, fiction has presented many instances of self-aware computers with non-mobile extensions into the physical world. In both types of entity, unexpected programming loopholes prove detrimental to their human collaborators. Prominent examples include HAL 9000 in 2001: A Space Odyssey and VIKI in the Asimov-inspired feature film called I, Robot. That these decidedly non-anthropomorphic machines have been promoted in dystopian fiction runs counter to the idea above concerning humanoid shapes - could it be instead that it is a human-like personality that is the deciding fear factor?

Although similar attitudes might be expected of a public with limited knowledge of the latest science and technology (except where given the gee-whiz or Luddite treatment by the right-of-centre tabloid press) some famous scientists and technology entrepreneurs have also expressed doubts and concerns. Stephen Hawking, who appears to be getting negative about a lot of things in his old age, has called for comprehensive controls around sentient robots and artificial intelligence in general. His fears are that we may miss something when coding safeguards, leading to our unintentional destruction. This is reminiscent of HAL 9000, who became stuck in a Moebius loop after being given instructions counter to his primary programming.

Politics and economics are also a cause for concern is this area. A few months' ago, SpaceX and Tesla's Elon Musk stated that global conflict is the almost inevitable outcome of nations attempting to gain primacy in the development of AI and intelligent robots. Both Mark Zuckerberg and Bill Gates promote the opposite opinion, with the latter claiming such machines will free up more of humanity - and finances - for work that requires empathy and other complex emotional responses, such as education and care for the elderly.

All in all, there appears to be a very mixed bag of responses from sci-tech royalty. However, Musk's case may not be completely wrong: Vladimir Putin recently stated that the nation who leads AI will rule the world. Although China, the USA and India may be leading the race to develop the technology, Russia is prominent amongst the countries engaged in sophisticated industrial espionage. It may sound too much like James Bond, but clearly the dark side of international competition should not be underestimated.

There is a chance that attitudes are beginning to change in some nations, at least for those who work in the most IT-savvy professions. An online survey over the Asia Pacific region in October and November this year compiled some interesting statistics. In New Zealand and Australia only 8% of office professionals expressed serious concern about the potential impact of AI. However, this was in stark contrast to China, where 41% of interviewees claimed they were extremely concerned. India lay between these two groups at 18%. One factor these four countries had in common was the very high interest in the use of artificial intelligence to free humans from mundane tasks, with the figures here varying from 87% to 98%.

Talking of which, if robots do take on more and more jobs, what will everyone do? Most people just aren't temperamentally suited to the teaching or caring professions, so could it be that those who previously did repetitive, low-initiative tasks will be relegated to a life of enforced leisure? This appears reminiscent of the far-future, human-descended Eloi encountered by the Time Traveller in H.G. Wells' The Time Machine; some wags might say that you only have to look at a small sample of celebrity culture and social media to see that this has already happened...

Robots were once restricted to either the factory or the cinema screen, but now they are becoming integrated into other areas of society. In June this year Dubai introduced a wheeled robot policeman onto its streets, with the intention of making one quarter of the police force equally mechanical by 2030. It seems to be the case that wherever there's the potential to replace a human with a machine, at some point soon a robot will be trialling that role.

2) Robot rights or heartless humans?

Hanson Robotics' Sophia gained international fame when Saudi Arabia made her the world's first silicon citizen. A person in her own right, Sophia is usually referred to as 'she' rather than 'it' - or at least as a 'female robot' - and one who has professed the desire to have children. But would switching her off constitute murder? So far, her general level of intelligence (as opposed to specific skills) varies widely, so she's unlikely to pass the Turing test in most subjects. One thing is for certain: for an audience used to the androids of the Westworld TV series or Blade Runner 2049, Sophia is more akin to a clunky toy.

However, what's interesting here is not so much Sophia's level of sophistication as the human response to her and other contemporary human-like machines. The British tabloid press have perhaps somewhat predictably decided that the notion of robots as individuals is 'bonkers', following appeals to give rights to sexbots - who are presumably well down the intellectual chain from the cutting edge of Sophia. However, researchers at the Massachusetts Institute of Technology and officers in the US military have shown aversion to causing damage to their robots, which in the case of the latter was termed 'inhumane'. This is thought-provoking since the army's tracked robot in question bore far greater resemblance to WALL-E than to a human being.

A few months' ago I attended a talk given by New Zealand company Soul Machines, which featured a real-time chat with Rachel, one of their 'emotionally intelligent digital humans'. Admittedly Rachel is entirely virtual, but her ability to respond to words (both the tone in which they are said as well as their meaning) as well as to physical and facial gestures, presented an uncanny facsimile of human behaviour. Rachel is a later version of the AI software that was first showcased in BabyX, who easily generated feelings of sympathy when she became distraught. BabyX is perhaps the first proof that we are well on the way to creating a real-life version of David, the child android in Spielberg's A.I. Artificial Intelligence; robots may soon be able to generate powerful, positive emotions in us.

Whilst Soul Machines' work is entirely virtual, the mechanical shell of Sophia and other less intelligent bipedal robots shows that the physical problem of subtle, independent movement has been almost solved. This begs the question, when Soul Machines' 'computational model of consciousness' is fully realised, will we have any choice but to extend human rights to them, regardless of whether these entities have mechanical bodies or only exist on a computer screen?

To some extent, Philip K. Dick's intention in Do Androids Dream of Electric Sheep? to show that robots will always be inferior to humans due to their facsimile emotions was reversed by Blade Runner and its sequel. Despite their actions, we felt sorry for the replicants since although they were capable of both rational thought and human-like feelings, they were treated as slaves. The Blade Runner films, along with the Cylons of the Battlestar Galactica reboot, suggest that it is in our best interest to discuss robot rights sooner rather than later, both to prevent the return of slavery (albeit of an organic variety) and to limit a prospective AI revolution. It might sound glib, but any overly-rational self-aware machine might consider itself the second-hand product of natural selection and therefore the successor of humanity. If that is the case, then what does one do with an inferior predecessor that is holding it up its true potential?

One thing for certain is that AI robot research is unlikely to be slowing down any time soon. China is thought to be on the verge of catching up with the USA whilst an Accenture report last year suggested that within the next two decades the implementation of such research could add hundreds of billions of dollars to the economies of participating nations. Perhaps for peace of mind AI manufacturers should follow the suggestion of a European Union draft report from May 2016, which recommended an opt-out mechanism, a euphemistic name for a kill switch, to be installed in all self-aware entities. What with human fallibility and all, isn't there a slight chance that a loophole could be found in Asimov's Three Laws of Robotics, after which we find out if we have created partners or successors..?

Saturday 1 April 2017

The moons of Saturn and echoes of a synthetic universe

As fans of Star Wars might be aware, George Lucas is nothing if not visually astute. His thumbnail sketches for the X-wing, TIE fighter and Death Star created the essence behind these innovative designs. So isn't it strange that there is a real moon in our solar system that bears an astonishing resemblance to one of Lucas's creations?

At the last count Saturn had 53 confirmed moons, with another 9 provisionally verified - and as such assigned numbers rather than names. One of the ringed planet's natural satellites is Mimas, discovered in 1789 and at 396 kilometres in diameter about as small as an object can be yet conform to an approximate sphere. The distinguishing characteristic of Mimas is a giant impact crater about 130 kilometres in diameter, which is named Herschel after the moon's discoverer, William Herschel. For anyone who has seen Star Wars (surely most of the planet by now), the crater gives Mimas an uncanny resemblance to the Death Star. Yet Lucas's original sketch for the battle station was drawn in 1975, five years before Voyager 1 took the first photograph with a high enough resolution to show the crater.


Okay, so one close resemblance between art and nature could be mere coincidence. But amongst Saturn's retinue of moons is another with an even more bizarre feature. At 1469 kilometres in diameter Iapetus is the eleventh largest moon in the solar system. Discovered by Giovanni Cassini in 1671, it quickly became apparent that there was something extremely odd about it, with one hemisphere much brighter than the other.

As such, it attracted the attention of Arthur C. Clarke, whose novel 2001: A Space Odyssey described Japetus (as he called it) as the home of the Star Gate, an artificial worm hole across intergalactic space. He explained the brightness differentiation as being due to an eye-shaped landscape created by the alien engineers of the Star Gate: an enormous pale oval with a black dot at its centre. Again, Voyager 1 was the first spacecraft to photograph Iapetus close up…revealing just such a feature! Bear in mind that this was 1980, whereas the novel was written between 1965 and 1968. Carl Sagan, who worked on the Voyager project, actually sent Clarke a photograph of Iapetus with a comment "Thinking of you..." Clearly, he had made the connection between reality and fiction.

As Sagan himself was apt to say, extraordinary claims require extraordinary evidence. Whilst a sample of two wouldn't make for a scientifically convincing result in most disciplines, there is definitely something strange about two Saturnian moons that are found to closely resemble elements in famous science fiction stories written prior to the diagnostic observations being made. Could there be something more fundamental going on here?

One hypothesis that has risen in popularity despite lacking any hard physical evidence is that of the simulated universe. Nick Bostrum, the director of the University of Oxford's Future of Humanity Institute has spent over a decade promoting the idea. Instead of experimental proof Bostrum uses probability theory to support his suppositions. At its simplest level, he notes that the astonishing increase in computing power over the past half century implies an ability in the near future to create detailed recreations of reality within a digital environment; basically, it's The Matrix for real (or should that be, for virtual?)

It might sound like the silliest science fiction, as no-one is likely to be fooled by current computer game graphics or VR environments, but with quantum computing on the horizon we may soon have processing capabilities far beyond those of the most powerful current mainframes. Since the ability to create just one simulated universe implies the ability to create limitless - even nested - versions of a base reality, each with potentially tweaked physical or biological laws for experimental reasons, the number of virtual realities must far outweigh the original model.

As for the probability of it being true in our universe, this key percentage varies widely from pundit to pundit. Astronomer and presenter Neil deGrasse Tyson has publicly admitted he considers it an even chance likelihood, whilst Space-X and Tesla entrepreneur Elon Musk is prepared to go much further, having stated that there is only a one in a billion chance that our universe is the genuine physical one!

Of course anyone can state a probability for a hypothesis as being fact without providing supporting evidence, but then what is to differentiate such an unsubstantiated claim from a religious belief? To this end, a team of researchers at the University of Bonn published a paper in 2012 called 'Constraints on the Universe as a Numerical Simulation', defining possible methods to verify whether our universe is real or virtual. Using technical terms such as 'unimproved Wilson fermion discretization' makes it somewhat difficult for anyone who isn't a subatomic physicist to get to grips with their argument (you can insert a smiley here) but the essence of their work involves cosmic rays. The paper states that in a virtual universe these are more likely to travel along the axes of a multi-dimensional, fundamental grid, rather than appear in equal numbers in all directions. In addition, they will exhibit energy restrictions at something called the Greisen-Zatsepin-Kuzmin cut-off (probably time for another smiley). Anyhow, the technology apparently exists for the relevant tests to be undertaken, assuming the funding could be obtained.

So could our entire lives simply be part of a Twenty-Second Century schoolchild's experiment or museum exhibit, where visitors can plug-in, Matrix-style, to observe the stupidities of their ancestors? Perhaps historians of the future will be able to run such simulations as an aide to their papers on why the hell, for example, the United Kingdom opted out of the European Union and the USA elected Donald Trump?

Now there's food for thought.