The List: Ten Sparks for Thought on AI

CRITICAL MUSLIM 34, SPRING 2020
232
THE LIST
TEN SPARKS FOR THOUGHT ON AI
Wendy L Schultz
I like to think…
of a cybernetic meadow
where mammals and computers
live together in mutually
programming harmony…
…a cybernetic ecology
…all watched over
by machines of loving grace.
Richard Brautigan, 1967
InApril 2020, one could be forgiven for wishing that artificial intelligences
were running the world. Organic intelligences are only too often
demonstrating organic incompetence generated by running organic
decision-making through organic ignorance. Humans have dreamt of
building a better decision-maker for centuries – creating their own false
gods to invoke, in the OldTestament; devising humanoid robots and living
marionettes in The Book of aThousand Nights and a Night; describing robotic
workers, helpmeets, and colleagues, and the three laws to control them,
in IsaacAsimov’s robot novels; and evolving the planet-governing Minds in
Iain M. Banks Culture novels.We dream of creating an Other on whom we
can rely, perhaps because we are so aware of our own flaws and frailties.
Bad news: we will undoubtedly incorporate those flaws in any
intelligence we create. Partially good news: more interesting artificial
intelligences may evolve on their own – and develop their own unique
array of flaws besides which ours might merely be spitting into the wind.

THE LIST:TEN SPARKS FOR THOUGHT ON AI 233
We can hope that their virtues will include charity and kindness – in the
months and years to come, we will need it.
In approaching the possibilities of artificial intelligence, we must first
ask: how is it born, and how does it grow up?Then, what purpose(s) might
it serve? Where will it fit in with human beliefs, cultures, and people?
Finally, how couldAI help in the COVID-19 pandemic?The following ten
sparks for thought are ordered to address those core questions.
HOW
1.Top-down,centralised,programmed
Building a better brain! A great ambition.The traditional approach relies
on a symbolic representation of the world – a set of rules describing how
the world works, and the creation of algorithms to generate responses
according to those rules. This approach attempts to model human
performance.Typical examples include ‘expert systems’, built up from
observing proven rules of effective practice followed implicitly or
explicitly by experts, or by modelling finely observed and accurately
described systems.The flaws in this approach are computational limits - so
many rules for so many potential situations! – and the built-in biases of the
human programmers. On-off/black-white/algorithmic decision-making
leaves little space for nuance. When quantum computation becomes
widespread and practical, offering the programming option of maybe/both
combined with massive processing power, this top-down approach to AI
might once again become interesting. But would a quantum-processor-
basedAI simply be inherently indecisive? Maybe?
2.Bottom-up,distributed,emergent
Situated intelligence provides an alternative approach that starts small and
evolves in complexity. Build something that senses its environment, with
a few simple guiding rules and goals – and let it learn. Machine learning is
basically a bootstrapping mechanism for creatingAI. Initial results applied
to robotics created artificial insects, artificial puppies, and smart search
algorithms – Alexa and Siri and hey, Google. Baby programmes are

234 WENDY SCHULTZ
embedded – or situated – in a dynamic environment that they can sense,
respond to, and manipulate. Each interaction teaches the software more
about the environment and the possibilities for interaction and the
potential range of results.To date, all examples are deliberately designed
by software engineers.
But could situated intelligence evolve on its own? Peter Cochrane,
former Chief Technologist at BT Labs, has pointed out that the human
intelligence is distributed and networked: individual brain cells are dumb;
the brain is intelligent.That intelligence is based not simply on processing
power, but also on sensors – the ability to perceive and interact with
reality.The internet is also composed of distributed interconnected nodes,
soon to surpass in number those of the human brain.And we are giving it
senses: the cameras and microphones on our smartphones, the smart wifi
home sensors, environmental monitors connected to the internet – we
live enmeshed in the internet’s increasingly sophisticated senses.At what
point will the machine learning capabilities built into the internet, coupled
with incoming data, challenged by relationships with seven billion
inquiring humans, just wake up and start learning with the entire planet as
its sandbox?
3.How intelligent is intelligent – will AI actually be only an‘artificial
stupid’?
Vonda McIntyre’s 1989 novel Starfarers, set on an immense habitat/
spaceship, introduces ‘artificial stupids’ – robots of limited intelligence
devised specifically to handle ongoing maintenance and chores. This
provides an early signal for an ongoing debate in the AI community –
should stupidity be built in, in order for artificial intelligence to more
closely resemble human intelligence? Human intelligence is constrained
– constrained by imperfect memory, imperfect perception, imperfect
performance, and cognitive bias. Free of these flaws,AI could potentially
outperform humans by many orders of magnitude. Thus the idea of
introducing artificial stupidity: it might make artificial general intelligence
safer by limiting it in the ways humans are limited. The downside?
HobblingAI with biases and built-in imperfections also potentially hobbles
its ability to support better decision-making for humanity.

WHAT
4.Servant,companion,lover,benevolent overlord?
What mightAIs be to humans – how might they fit into our relationships,
our social connections, our cultures? As none yet exist, we can only fall
back on fictional explorations of the possibilities. Iron Man’s (2008) AI
character Jarvis is designed by Tony Stark (‘genius, billionaire, playboy,
philanthropist’), but programmed to evolve. Jarvis is a good fictional
example of how massive processing power connected to multiple sensory
inputs – video and microphone feeds, laboratory sensors – might nurture
growth of anAI.While modelled after an old family retainer and designed
to be a digital servant, Jarvis is in many waysTony’s closest, and perhaps
most reliable, companion and friend. In much the same way, Samantha in
the movie Her (2013) begins as an AI-powered virtual digital assistant – a
more effective Alexa or Siri – and evolves into an independent sentience
who first falls in love with her human clients, and then transcends their
merely human intelligence. Samantha does so not only through massive
distributed processing power and distributed sensor feeds, but also and
more importantly, through simultaneous interactions with a multitude of
human beings.
At the other end of the spectrum are the immense Minds of Iain M.
Banks’ Culture novels, the powerful artificial intelligences whose‘bodies’
are kilometre-long spaceships, or entire orbital stations.The Minds are
amused by human culture and tolerate humans as entertaining residents.
They absolutely control the structures that are their bodies, and by doing
so enable humans to luxuriate in heedlessness without reaping the
consequences of their own ignorance. The technological evolution of
Minds leads‘to a state in which humans don’t only do less, but also think
less in a world of more and more intelligent objects.’The Culture seems
very much like Brautigan’s ‘cybernetic ecology, … all watched over by
machines of loving grace’. Sounds relaxing, doesn’t it?

236 WENDY SCHULTZ
WHERE
5.Culture and ethics – Buddhist AI? Quaker AI? Islamic (halal?) AI?
Whether an AI is deliberately programmed, or evolves from a dynamic
relationship with the wider environment and human demands, what might
be its philosophy? What cultural perspectives and moral frames might it
apply to its interactions with the world and us? Critiques abound regarding
the in-built bias of machine learning algorithms – the techbro worldview
coded into microprocessors. Perhaps with Buddhist or Quaker starting
assumptions, humans would not need to worry about AI dominating
humanity; it would prioritise mindfulness, meditation, the resolution of
conflict.What would an Islamic AI be like? That is, what characteristics
might render anAI halal – and what might make it haram? Similar questions
are being asked elsewhere in our emerging digital life.The worldwide
Islamic economy – worth nearly US$4 trillion and growing –provides
financing based on shari’ah law; the Shariya Review Bureau has certified
several cryptocurrencies as compliant and halal; Islamic digital startups like
CollabDeen proudly proclaim that they are melding faith and lifestyle in
their on-line collaboration platform.What might be the decision rules,
perspectives, and behaviour of anAI who is among the faithful?
6.Cranky,funny,loving – what will be our individual experience of AIs?
Zooming in from wider questions of worldview, culture, and morality, to
those of psychology, what will the personalities of emergentAIs be like? In
the film Interstellar, the humans could adjust personality settings like
independence, humour, sarcasm.Will AIs have personality menus? Or,
more likely, if they evolve into sentience, will each have its own unique
immutable personality? Douglas Adam’s Hitchhiker’s Guide to the Galaxy
depicts a lugubrious AI robot, Marvin, whose permanently depressed
perspective colours his every utterance. In contrast, the Iron Man movies
suggest that Jarvis contains built-in algorithms for critical thinking and
humour, which have evolved along with his other capabilities.The result is
an AI executive assistant with a wry, critical, and sarcastic view of its
progenitor/boss/owner. The AI Samantha in Her begins as upbeat,

cheerful, and helpful – and grows affectionate and profoundly loving.What
do we want of the AIs of the future? Do we want them to recognise and
experience human emotion – to reflect our own feelings back at us and to
encourage them?
AIs might well evolve their own unique emotions but would we ever be
able to understand them? In William Gibson’s Count Zero, the Tessier-
Ashpool AI known as The Boxmaker lives out its days in a room in Villa
Straylight on an orbital station, carefully and almost meditatively creating
glass-topped boxes filled with objects of everyday life, some cast-offs,
some antiques, some human and personal, some objets d’art. Is the
assembly random? People read deep meaning into the boxes and their
contents. But the question is, does the Boxmaker itself invest great
meaning in each box and what it contains – that is, is it deliberate art? Or
just a random collection of junk which humans perceive as art? This is
perhaps the greatest and most subtle version of theTuring test for genuine
intelligence.
7.Smarter – or just different?
Both of the previous sparks for thought frame the culture and personality of
AIs as at least human-adjacent: our silicon relatives. But the story of the
Boxmaker raises a different question.What if AIs are entirely alien instead,
and beyond our understanding?Would we want such entities making critical
decisions for humanity? The Minds of Banks’ Culture books frequently
remind humans how ineffably superior Mind intelligence is to human
intelligence, and it is so palpably true that humans find competition moot.
The books convey the sense that during any human-Mind conversation, the
Mind is also engaged in millions of other activities –humans require only a
small percentage of a Mind’s mental activity.That a vast thick culture exists
above and around merely human culture, carried out in conversations over
light years among the Minds, simultaneously blazingly fast and of patient,
extended duration.The tone and tenor of that magisterial conversation is
hinted at by the names the Minds give themselves: Frank Exchange ofViews,
A Series of Unlikely Explanations, Unfortunate Conflict of Evidence,
IrregularApocalypse, and Prosthetic Conscience, are examples. Each name

238 WENDY SCHULTZ
almost makes sense to humans, but each clearly fragments larger lattices of
thought.Will we simply be the wrasse toAI whales?
8.Our silicon better half?
While we are building evolving computer networks, we are evolving
ourselves as well. Scientists have experimented in brain-computer
interfaces since the turn of the century: Kevin Warwick implanted
microchips along the nerves in his hand; Braingate implanted a microchip
array in a human brain. Developing an‘exocortex’ is the logical next step
– expanding the capabilities of the human brain by direct link-up to
external memory and processing technologies. This could be any
combination of artificial external information processing devices that
augment a brain’s biological cognitive processes. For example, an
individual’s exocortex could consist of linked external memory modules,
processors, Input/Output devices and software systems that would
interact with, and augment, a person’s natural brain functions. It is one
short step from exocortexes becoming commonplace, to humans linking
intimately with emerging AIs.The relationship could be the best of both
worlds: extending cognition and processing power for the human, and
offering theAI a nuanced and mobile sensorium with which to experience
the world. AIs might be less the civilisation-ending threat that some
analysts perceive; and humans more the global problem-solvers they need
to be in an era characterised by climate crises, environmental crises, and
now epidemiological crises.
COVID-19
9.Problem analysis or problem solutions?
Epidemiologists were overjoyed by the possibilities inherent in big data and
massive computational analysis applied to public health challenges. Rapid
processing and analysis of a country’s worth of personal health data,
compiled from your Fitbit or AppleWatch, opens up the capacity to spot
previously unrecognised patterns and relationships across environmental
conditions, lifestyle, diet, stress, and genetic characteristics. Using anAI to

run data pattern-identification and analysis non-stop across entire
populations could create a daily‘weather report’ for health – what illnesses
are cropping up where, and why.This daily report could also warn of shifts
in external conditions – pollen, new food fads, stress-inducing events –
that could in turn create new ill-health hotspots. Should such a big data-
health AI stop at simply identifying emerging health problems like
pandemics? Or could we ever trust one enough to grant it the powers to
offer individuals incentives for lifestyle changes, or to implement health
policy initiatives for communities and countries? This could end the
politicisation of health and environmental issues. Except, of course, for the
politics of theAI itself – what moral and ethical frames might anAI invoke
if faced with questions of medical triage?
10.The ultimate epidemiologist – or the start of the Surveillocene?
The immediate question is whether machine learning – really the practical
capability that is the closest we’ve come to AI – can be effective at helping
humans cope with the COVID-19 pandemic without laying the foundation
of an overbearing surveillance society.The WHO, public health experts,
and doctors all hammer home the need to test, identify, trace contacts, and
quarantine in order to control COVID-19.Those needs cry out for digital
solutions: there most definitely is an app for that. In fact, several exist,
among them South Korea’s COVID 100m app, and the Kings College’s
COVID Symptom Tracker at covid.joinzoe.com. Analysts have also been
identifying potential hotspots by combining searcher location data and
specific Google search terms, eg, ‘I can’t smell’ plus fever. A genuine
Artificial General Intelligence could sift through mountains of public health
and personal health data and identify epidemiological patterns before most
humans finished formulating a question.The problem, of course, is the
data. Is the trade-off of public health security worth acquiescing in the loss
of control over our data – particularly over data as personal as the state of
our bodies? Could we trust an AI with our data?Who will in future watch
the watchers – will it be machines of loving grace?

The List: Ten Sparks for Thought on AI

More Related Content

What's hot (20)

Similar to The List: Ten Sparks for Thought on AI (20)

More from Wendy Schultz (20)

Recently uploaded (20)

The List: Ten Sparks for Thought on AI