Showing posts with label Nick Bostrum. Show all posts
Showing posts with label Nick Bostrum. Show all posts

Thursday 19 December 2019

Our family and other animals: do we deliberately downplay other species' intelligence?

I recently heard about a project investigating canine intelligence, the results being that man's best friend can distinguish similar-sounding words, even if spoken by strangers. Yet again, it appears there is a less and less that makes our species unique: from the problem-solving skills of birds to social insects' use of farming techniques we find ourselves part of a continuum of life rather than standing alone at the apex.

Reading the Swedish philosopher Nick Bostrom's thought-provoking book Superintelligence, I was struck by his description of the variation of human intellect (from as he put it, Einstein to the village idiot) as being startling narrow when compared to the potential range of possible intelligences, both biological and artificial.

The complexity of animal brains has been analysed by both quantitive and qualititive methods, the former dealing with such measurements as the number of neurons while the latter looks at behaviour of members of a species, both in the wild and under laboratory conditions. However, a comparison of these two doesn't necessarily provide any neat correlation.

For example, although mammals are generally - and totally incorrectly - often described as the pinnacle of creation due to their complex behaviour and birth-to-adult learning curve, the quantitive differences in neural architecture within mammals are far greater than those between amphibians and some mammalian families. In addition, there are many birds, mostly in the Psittacidae (parrot) and Corvidae (crow) families, that are both quantitatively and qualitatively superior to most mammals with the exception of some primates.

I think it was the essays of evolutionary biologist Stephen Jay Gould that introduced me to the concept of EQ or encephalisation quotient, which is a label for the brain-mass to body-mass ratio. On these terms, the human brain is far larger than nearly all other species with a similar sized body, the exception (perhaps not surprisingly) being dolphins.

However, it's difficult to draw accurate conclusions just from examination of this general trend: both the absolute size of the brain and neuron density play a fundamental role in cognitive powers. For example, gorillas have a lower EQ that some monkeys, but being a large ape have a far greater brain mass. It could be said then, that perhaps beyond a certain mass the absolute brain size renders the EQ scale of little use. A 2009 study found that different rules for scaling come into play, with humans also having a highly optimal use of the volume available with the cranium, in addition to the economical architecture common among primates.

As historian and philosopher Yuval Noah Harari has pointed out, the development of farming, at least in Eurasia, went hand in hand with the evolution of sophisticated religious beliefs. This led to a change in human attitudes towards the other animals, with a downplay of the latter's emotional needs and their categorisation as inferior, vassal species in a pre-ordained (read: divinely-given) chain of being.

By directly connecting intelligence - or a lack thereof - to empathy and emotions, it is easy to claim that domesticated animal species don't mind their ruthless treatment. It isn't just industrial agriculture that makes the most of this lack of empathy today; I've seen small sharks kept in a Far Eastern jewellery store (i.e. as decoration, not as future food) in tanks barely longer than the creature's own body length.

Although the problem-solving antics of birds such as crows are starting to redress this, most people still consider animal intelligence strictly ordered by vertebrate classes, which leads to such inaccuracies as the 'three second goldfish memory'. I first noticed how incorrect this was when keeping freshwater invertebrates, namely shield shrimp A.K.A. triops, almost a decade ago. Even these tiny creatures appear to have a range of personalities, or perhaps I should say - in an effort to avoid blatant anthropomorphizing - a wide variety of behaviour.

Now on the verge of setting up a tropical aquarium for one of my children, I've been researching what is required to keep fish in fairly small tanks. I've spoken to various aquarium store owners and consulted numerous online resources, learning in the process that the tank environment needs to fulfill certain criteria. There's nothing in usual in this you might think, except that the psychological requirements need to be considered alongside the physical ones.

For example, tank keepers use words such as 'unhappy' and 'depression' to describe what happens when schooling fish are kept in too small a group, active swimmers in too little space and timid species housed in an aquarium without hiding places. We do not consider this fish infraclass - i.e. teleosts - to be Einsteins (there's that label again) of the animal kingdom, but it would appear we just haven't been observing them with enough rigour. They may have minute brains, but there is a complexity that suggests a certain level of emotional intelligence in response to their environment.

So where does all this leave us Homo sapiens, masters of all we survey? Neanderthal research is increasingly espousing the notion that in many ways these extinct cousins/partial ancestors could give us modern humans a run for our money. Perhaps our success is down to one particular component of uniqueness, namely our story-telling ability, a product of our vivid imagination.

Simply because other species lack this skill doesn't mean that they don't have any form of intellectual ability; they may indeed have a far richer sense of their universe than we would like to believe. If our greatest gift is our intelligence, don't we owe it to all other creatures we raise and hold captive to make their lives as pleasant as possible? Whether it's battery farming or keeping goldfish in a bowl, there's plenty we could do to improve things if we consider just what might be going on in the heads of our companion critters.

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.