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36C3 preroll music
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Herald: Our next speaker Régine Debatty
will help you and explain you the Internet
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of rubbish, things and bodies and
basically everything around e-waste. Thank
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you very much and welcome. applause
Régine Debatty: Can I get ... can I get
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less light to my face?
Herald: Slide in your face?
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RD: Less light to my face.
Herald: Slide?
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RD: Light. Can I get less
light in my face?
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Herald: OK. A little bit less light for
the speaker.
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RD: Yeah. Hello. Good evening, everyone.
First of all, I want to say thank you to
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Nora, to Gregor and to everybody, at the
Chaos Communication Congress for welcoming
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me again this year. So I've been tasked
with the mission, just like in 2018, to
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present to you some of the most
interesting and exciting works in art and
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technology of this past year. And just
like last year, I kind of went on my own
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way and went on a tangent and started
adopting a tunnel vision. And for some
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reason I realized I was obsessed with
e-waste. So you're going to hear a lot
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about e-waste and nuclear waste in the
coming hour. But still, I promise it's
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still going to be reasonably interesting,
hopefully. And most of the projects are
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anyway from 2019. So why did I get
interested and why did I think it would be
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a good idea to talk to you about e-waste?
First of all, there was the the theme of
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this year's Congress "Resource
Exhaustion". I just decided to put some
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more, let's say, ecological twist on it.
And then the second reason why I wanted to
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talk about e-waste is that a couple of
months ago, I went to see an exhibition of
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a Swiss photographer who has spent four
years, something like that, traveling
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around the world and trying to understand
why transhumanists wanted to change and so
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called augment and improve their body. And
so he documented everything he found and
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how humans nowadays are changing their
bodies, either to go from disable body to
-
able body or from able body to superable
body. And one way you can augment your
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body is, you know, is with RFID chip that
you can implant and that allows you to get
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access to offices, open your car door or
even pay for public transport. And I've
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been told recently that RFID chips are the
new tattoo. And then you can also get
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magnets implanted underneath your finger
that allows you to sense electromagnetic
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fields. And actually, the first time I
heard about this, I was at least 10 years
-
ago, it was one of the first Chaos
Communication Congress I attended in good
-
old Berlin. And there was this this
journalist called Queen Nocturne. And she
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came to explain that she had just had a
magnet implanted and explained that the
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new experience and how she felt magnetic
fields. Anyway, I could multiply the
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example. But of course, the people who are
really at the cutting edge of body
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improvement and augmentation are the
Transhumanists. This is one of them, Igor
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Trapeznikov is part of the Russian
Transhumanists Community. He had a number
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of implants, you know, the usual RFID
chips, but also a device that turns its
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sights into sound, which is usually useful
for people who have a vision problem or
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who are blind. And then, of course, they
are addition to the body or correction of
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the body that are there for to a
particular reason. That's how some find
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themselves with bits of titanium in the
knee or in the shoulder. And they use this
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kind of screw. I think that's one of the
images in the series that I found the most
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impressive, the idea that when I get
older, I might get these kind of screws
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inside my body. Pacemaker, of course. And
what makes pacemaker interesting is that
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it was one of the first electronic devices
that found its way inside our bodies. So
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it became kind of emblematic of the coming
mechanization of the human body. And then,
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of course, there are the other devices that
communicate with electronics that you
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insert in the body and that communicate
with phones and computers. So that's why
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so much talking about the Internet of
Bodies, you know, after the Internet of
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Things, there ist the Internet of Bodies.
So this is a bio artificial pancreas for
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people who suffer from Diabetes Type 1.
There are so many smart devices that can
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be added on your body or inside your body.
I've heard about smart contact lenses and
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also smart prosthetics. And after seeing
this exhibition, I started looking at
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people around me with a different eye. I
am wondering who else had bits of metals
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and electricity and electronics inside
their body. So that's where my obsession
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with with e-waste came because my
immediate question after this is what
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happens after you died? What happens to
that? I don't know if you're interested,
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but I had to do some research. So if you
are buried the traditional way, you buried
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with with all your gadgets and gizmos and
anything orthopedic. If you're cremated,
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you're not cremated with your pacemaker
because it contains batteries that could
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explode. And then I learn about the new
very interesting service. I mean, to me,
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it sounded quite interesting. It is that
when you are cremated, of course, the
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titanium or any metal, they do not burn.
There is this company who retrieves all
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the metal that is found among the ashes.
There's just a couple of companies around
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the world who do that. They just recover
all the metals, they divide them according
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to the types of metal. And then they melt
them down into ingots, which they sell to
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the medical industry, but also to the Car
Industry and the Aeronautical Industry. So
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that means that parts of these bodies are
going to become part of a car or a plane
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one day. And I also started imagining that
probably in the future, archeologists will
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find skeletons with e-waste. We will be
buried simply with our e-waste. They will
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find bits of metals in the shape of bones
and then the rusty electronics. So that's
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really what set me on the path of starting
to see e-waste absolutely everywhere. I
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never miss an opportunity to show my dog
because I realized that he has an RFID
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chip and apparently all pets are buried
with them. Anyway splendid animal. So
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since I'm thinking about e-waste it's
difficult not to mention one of the icons
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of e-waste. It's Agbogbloshie. I'm sure
you've seen the picture. I'm going to show
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images, but I'm not going to tell you the
whole story because I'm sure you've seen
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all these images. It's located in Accra,
the capital of Ghana. And that's where
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full containers of electric and electronic
trash end up. And the press really like to
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talk about it and say "Oh, this is where
your data and your your devices go to
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die." It's a huge place. And you've seen
the images of these young people who spend
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the whole day dissecting your devices and
trying to separate different types of
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precious metals such as aluminum, silver,
copper, etc.. Of course, they're working
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in terrible condition. It's very toxic to
work there. They all suffer from terrible
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headaches, difficulty sleeping problem,
respiratory problem, untreated wounds,
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etc. But it's really usually the way the
press is depicting what's happening and
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what the press is really not depicting
the full story and that there are bits and
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pieces missing in the narratives. First of
all, I think we are not conscious enough
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of these people playing a really important
role for us because they retrieve metals
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and we have the feeling that metals are
everywhere. But on the surface and
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underneath the earth some of them are
going to be more and more difficult to
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retrieve. This year, UNESCO's declared the
year of the periodic table. And you can
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see on this periodic table that the dot
seen in red and orange are the types of
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elements that are going to be more and
more difficult to mine and to retrieve.
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And I like to show these graphics a bit.
It is all not very precise, but it shows
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the trend. So if ever you have a child or
brother was born in 2010, by the time your
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child or your brother or your sister is
20, there will be no antimony, no lead
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left to mine. Very little indium, very
little zinc, very little silver, almost no
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gold. These elements will still be there,
but it's just going to cost more and more
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energy and more and more money to retrieve
them. So that's why you have this project
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of mining very deep into the ocean or even
mining asteroids for the same kind of
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metals that we need. And I think it was so
that we kind of have a blind spot for
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metals. We forget. We take them for
granted. And when we think about the
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challenges of the environment, we tend to
focus on energy. And energy is important.
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But when you think about renewable energy,
we have the feeling it's zero emission,
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but it still has a big impact on the
environment. And I like to talk about
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these solar thermal plant. It's a famous
one. It's a very, very big one. It's in in
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Southern California. As you can see, it's
vast and actually, when it was built
-
conservation biologist were very concerned
because essentially it was built on a
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really environmentally intact desert
habitat for a number of animals which were
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in danger, such as tortoise that had to be
moved by hands and put on a truck and
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relocated elsewhere. Some of them died out
of stress. You might have heard that, too.
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So birds and bats by the thousands every
year, they did die because of the heat and
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the radiation. And also you see the
surface of the earth that this is
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occupying. It's really huge. And they
think it's not a coincidence if the
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opening sequence of the sequel of Blade
Runner 2049 starts with these seemingly
-
endless landscape of solar panels that are
necessary to power modern life. As I said,
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I think we we don't perceive the
importance of materials and how many
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components extracted from the earth are
inside any object that surround us. So I'm
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going to show a couple of example of of
design work and artworks that try to make
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it visible, the elements that are inside
our electronics or electric objects. So
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the first one is by these designers Studio
Drift. They have a series where they
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decompose all kinds of objects. I'll show
a few of them. They can be bikes. They can
-
be a mobile phone. In this case, it's an
iPhone model from 2010. It can be hovers.
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I'll show a few examples. They dissect
them and they analyzed the elements that
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compose them. And then they reconstruct
these elements in the form of these
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geometrical shape. I want to show a few of
them. So that was the iPhone. That's good
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old Nokia from 1999. When you see them in
an exhibition, they're really tiny. And I
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think we saw that some elements are simply
not represented. If you think about rare
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earths, some of them are presenting in
smartphone in really tiny quantities like
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less than half a gram. But I couldn't find
another image. But this is very big. So
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this is the representation of a Volkswagen
Beetle from 1980. And so that took a lot
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of space. And you see an element appear
that I was really not expecting, such as
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horse hair and also corc. This is an
electic cable. So, you know, a bit of
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copper and a lot of plastic for one meter.
That's my favorite, the Kalashnikov. You
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see the the bullets in the front. And when
I went to see the first time this
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exhibition and if I didn't look at the
label, I had no idea what was what, I
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could not recognize anything. So it shows
the level of ignorance of at least people
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like me. But that I could recognize - a
pencil. That I could manage. So that's the
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last one. That's a light bulb. That's one
way to visualize the elements that
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surround us. It's very designy, quite
elegant and charming. But I also like
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artists who adopt a more brutal strategy.
So Dani Ploeger also wanted to show the
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inside - well, that was one of his
objectives at least - to see the inside of
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electronic devices. So the first part of
his project started back in 2012 and 17 he
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infiltrated Phillips and got hired, as you
know, this guy. You see them at these
-
consumer goods fairs that try to sell it,
to sell you gadgets and say what is going
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to change your life? And here is what this
can do. So he was he was hired to to sell
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a highly sophisticated shaver for men. And
the reason why he wanted to be there is if
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you wanted to understand exactly what were
the dynamics and the logic behind the
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constant rapid innovation behind our
electronics. So that was the first part.
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He got his hands on confidential material
that really explain how people at Philips
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have these teams - I say Philips but I'm
sure it's the same elsewhere, of course -
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they really analyze the different types of
consumer that we are and find the best way
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to to trick us and to lure us and seduce
us into buying new products. And then the
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second part of his project was this year
where he bought this machine. It's a
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machine that is called industrial stress
testing machine. So it's several of these
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machines, you can buy them. He bought this
one on Alibaba in China. And they're
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usually used by makers of whichever mobile
phone, whatever, and they simulate all
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kinds of accidents that can happen to your
device like you walking on it or dropping
-
it. I'm going to show a video of this one.
video of machine in action is shown
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So that's our poor shaver inside. I like
the machine because, you know, it has a
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bit of a vintage feel inside. The object
that it tests are quite sophisticated and
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very, very much 21st century. But when you
see the the control panel, it seems to be
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stuck in the mid 20th century. It has
these kind of old design. Apparently it
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was a nightmare to get it shipped to to
Europe. It costs more to get it shipped
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than the machine itself. And if you're
like me and you could watch this video for
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hours of the arm rotating and breaking
things, and if you live in Leipzig, the
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machine is going to come to the Museum of
Fine Art in March as part of an exhibition
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called Zero Waste. So the reason why he
did this, like, obscene display of
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destruction of luxury goods was that you
had two reasons for doing that. First of
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all, the first reason was, is that usually
when we think about consumer culture and
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how we consume too much and throw away too
much and and waste and the onus usually is
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on the consumer. You know, the consumer is
wrong, and yeah, we are wrong. We buy too
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much. But then the wrong starts actually
much further upstream. It starts
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everywhere in the line of production and
especially in the design and research and
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development teams who engineer constantly
new ways to seduce us and to convince us
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that we have to update. And then another
reason why he did this project is that is
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that he wanted to to make a comment on
maker spaces, which, you know, are very
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interesting, but still feeding on this
vocabulary of entrepreneurship,
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innovation, progress. But they never
really, truly and deeply and and they
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don't really challenge in a systemic way
consumerism. So he saw this laboratory of
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electric electronic aging as a kind of
make up space for unmaking things. And
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also you get to see what's inside this
piece of electronic. But I would like to
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go back to Aghogbloshie again, because if
there are people who know very well what's
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inside our electronics and what they are
made of it's the workers of Aghogbloshie.
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And sometimes, you know, when we think
about this kind of place and I think the
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example of Aghogbloshie, but as I'm sure
you know, there are equal sites elsewhere
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in Africa, in Asia and Bangladesh et
cetera. We have the feeling that this is a
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big junkyard and that it's a kind of huge
mess and it's it's dark and it's dirty.
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But this is a map done by architects,
designers and activist who spent a lot of
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time in Aghogbloshie. And you probably
cannot read - well, you probably all have
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better eyes than me, but it's still
written very small - they map the
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activities in Aghogbloshie. And if you
read the map, you see that the there is a
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maker space, there are spaces dedicated to
disassembling, there are places to eat, to
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pray, to disassemble, to repair, to have
fun. And also, we have the feeling that,
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well, these are just people discarding and
dissecting our electronics. But actually,
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the way they work is very sophisticated
and very fine. So first of all, they get
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these huge containers, that with content,
pretty much anything we don't want that's
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electric or electronic, including entire
cars. And they divide them in streams. So
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this is a heap of photocopy machines. They
also can detect when something can't be
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repaired, but they also can detect which
part of the machine all the computer is
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still, which component can be saved and
reused to repair something else. So that
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also goes on another pile. I think they're
much better than us at differentiating
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different types of plastics. They have
places dedicated to weigh in the kind of
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metal that they retrieve. And I would say
that they're quite like you suddenly, not
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like me. So when I have a computer and it
doesn't work. I think for me, it's a black
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box. I'm never going to open it. But these
people, their job, their business is to
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open our old computers and better than
that. Most of them, like not most of them,
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but many of them, can repair and give them
a second life or really a new lease of
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life, which, you know, it's important
because we think all these objects are
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dead, but actually they give them a second
life and then, you know, they repair it.
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They repair them, they sell them to
communities around Aghogbloshie or in
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Ghana, or in neighboring countries to
people would otherwise not be able to
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afford a new printer or new TV or a
computer. And then, as you can see, they
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have places to have fun. And they, too,
are quite fans of the Premier League. So
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the map I was showing, just before. With
all the activities in Aghogbloshie has
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been made by architects and designers DK
Osseo-Asare and Yasmina Abbas. They spent
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a lot of time trying to understand how the
community was working. And they designed
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this kiosk with anything they could find
on the scrapyard. And it's a meeting place
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where they invite the community of
Aghogbloshie to meet people such as
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graduates or young students in science,
technology, engineering, math. And so the
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students and graduates who have very, very
theoretical vision on technology. And then
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they get to meet these people, who have
extremely sophisticated, very deep, know
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how. And together they exchange ideas and
they've developed ways, for example, you
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know, the traditional lead to to recover
the copper from the cable, they would burn
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the cable, the plastic, which is very
toxic and also damages the copper. So they
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find a way to recover the copper without
burning the plastic, which means that it's
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less toxic, it's safer, and they can sell
the copper for more money. So it's kind of
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a win-win. The aim was to develop together
new processes, new ways of working, new
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tools. They also have fun. So with bits
and pieces, they found on the scrap yard a
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couple of years ago they made these drones
that flew over the junkyard. So it's a
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project I like a lot because it pays
hommage to the kind of work that doesn't
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get a lot of recognition. But that's
really important, you know, when you think
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of, as I said, the metals we are using to
make our electronics and also even the
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solar panels and and the wind turbine et
cetera, and all our renewable energy they
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also rely on the same metals that are
disappearing, at least are becoming less
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available. So that's one of the reasons I
really like this project. And also, it
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reminded me of this performance from
already forty years ago by Mierle Laderman
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Ukeles. She kind of decided she would be
an artist in residency at the New York
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Department of Sanitation. So that's the
people who collect the trash. So she spent
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a year with them everyday. She was there
at six in the morning and she followed
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them and she did, she had this gesture of
she wanted to meet every single one of
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them. There were 8500 employees. So she
she wanted to shake them with them and
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say, thank you for keeping New York City
alive. Which I think is a lovely gesture,
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because suddenly this anonymous mass of
bin men you realize that there are
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individuals. And yeah, she documented and
talked with them. It's a way to bring
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attention to a profession that we don't
value a lot. And also, she wanted by
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spending so much time among them to make
people realize that the work of these
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people should be valued at least as much
as her own as an artist because of the
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role they play for the collective society.
Yeah. Okay. I see. Still Agbogbloshie
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but if I had time I would talk about other
projects in Africa. This one's a startup.
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African born 3D that makes 3D printers
that at least a third of the components
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come are found in second hand on second
hand, in discarded electronic let's say.
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And I think what this show is, is a kind
of mindset and an attitude that should
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inspire us. And it's going to show to show
you a few example of this attitude, I
-
think is really important is is trying to
make the most of what you have instead of
-
jumping on the next gadget and gizmo, but
really trying to to be as creative, as
-
innovative as possible. So in India,
they have this movement called Jugaad,
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where even in the West we
translate it as frugal innovation. So this
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is. Oh yeah. You needed. You had only a
motorcycle. You need a ploughing machine
-
for his land. So you adapted. The the the
is motorcycle. And you turn it into a kind
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of.
sudden silence
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RD: I can take a traveling mic
Audio technician: Dead battery.
-
RD: So I should keep ... watch out for my
hair, yeah.
-
Herald: In the meantime, the question. You
know it. Oh, no. I think the meantime is
-
over. No. So, uh, you know the question.
And you know the case 6-2-1. Someone? No?
-
So six hours of sleep a day. Two meals?
No. Oh, boring. Anyways, to remember it:
-
six hours of sleep, two meals a day and
one shower, please remember. And, uh, to
-
make some minor announcements, don't
forget the trash. Do we have audio back?
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RD: I think so.
Herald: Perfect. Then, please.
-
RD: I can't believe you told people
to wash. Yeah. Yeah. This is answering
-
precise need instead of creating demand.
And sometimes, you know, it respond to a
-
specific problem. Sometimes it can be
scaled up. So this Indian inventor made a
-
fridge that doesn't use electricity, but
uses evaporation to to keep the food cool
-
simply because there are people who live
in a rural areas who don't necessarily can
-
afford a fridge or don't have continuous
access to electricity. And of course, the
-
best example and the most famous example
of Jugaad, is the Indian
-
space mission. Since 2014 India has is a
probe orbiting Mars and the Indian
-
engineers, and pretty much everybody in
India jokes about the fact that it costs
-
less money for them, that the space
mission cost less money than than your
-
average Hollywood blockbuster about space.
And, you know, it's not about making
-
things cheap. It's about reinventing
process, of designing, of manufacturing
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and of distributing. Okay. I don't have
that much time. So I'm going to skip a few
-
things. Yes. So I've been to India,
Africa. Let's get back to to Asia, because
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I really like this project. Say it's a
project by an artist who also saw images
-
from Agbogbloshien similar a
junkyards. And so he was interested in
-
e-waste as well. He found himself in
Taiwan and he found this really cutting
-
edge company that deals with e-waste no
one wants. So usually when you find a
-
company that deals with recycling midsize,
usually they focus on the nice metals, the
-
ones that are valuable like in a copper,
for example. And then you have pieces of
-
electronic waste that no one wants, such
as a I don't know the one that contains
-
lead or CRT monitors or glass fiber from
printed electronic boards. This kind of
-
thing that really no one knows what to do
with it. Well, they found a way. So the
-
company is called Super Dragon
Technology. And the trick they found is
-
that they just take all these bits and
pieces of waste that no one wants and they
-
crush them into a powder, they mix them
with epoxy and they make these splendid
-
objects out of them. And because I think
they're quite crafty, they can imitate
-
very well the appearance of bronze, of
marble, of porcelain, you know, very noble
-
material. And also they play with the
proportion of epoxy and this toxic powder
-
to make it so like feel like it's very
heavy if it's supposed to imitate bronze,
-
etc. And so they're decorative objects
with the particularity that they contain a
-
lot of lead. So you're not supposed to
manipulate them too much might be
-
dangerous. They also have in common that
they have a very peculiar esthetic. As you
-
can see, this is a trophy. And then have
these these wonderful little thing where
-
they actually they make fake rocks, which
looks absolutely eccentric and crazy. But
-
the story is that these are not just any
type of rocks. They're supposed to be
-
scholar stone. So during the tense 11th
and 12th century in China, there was the
-
dispassion for the so-called scholar stone
where an intellectual from China would go
-
in the countryside and admire the
landscape. And suddenly they would find
-
these rocks that were seemed to be
sculpted by the elements that had really
-
strange and interesting shapes. And they
thought it was the manifestation of the
-
creativity of nature. And so they would
bring them back and use them to
-
contemplate and meditate. And, you know,
now nowadays you can you can still buy
-
some of these scholar stones in auction.
They're quite valuable. But what I really,
-
really like is that these superb dragon
technology is the way they think. So they
-
can figure out that there's a difference
between applied art that makes you do
-
useful things like plates and furniture
and then fine art that makes basically
-
useless things and sees the ways no one
wants is useless. Well, that kinds of
-
fits with the requirement to make fine
art. So this way all these objects have
-
been shown showing to you. They call them
green art and they have a green art
-
gallery, and appearantly it's quite
successful. Tyler Coburn bought some of
-
these stones and actually accompanies them
with a text. So I know your narrative
-
where you have the story of one single
grain of sand that tells its many stories
-
how it started as a sand and then became
became a piece of electronics and then a
-
piece of trash and then and then ended its
life as art. Found it very charming. I
-
don't have time for this. Yes. Very
quickly. I mean, I'm famous for giving
-
very depressing talks. So now I'm trying
to insert a little bit of happiness in my
-
talks. Things are changing a bit. That's
why you have now repair cafes that are
-
quite successful, yet there are also shops
you can find where the people working
-
there and absolutely not affiliated with
with Apple, Samsung and Nokia. But they
-
found a way to give a second life to your
objects and repair them. So and usually
-
they are much nicer than the guys at the
Genius Bar. If you've ever had to deal
-
with them. There are more and more Web
sites that sell secondhand goods that have
-
that even come with a one year warranty.
You've heard about the fairphone, of
-
course. And then brings me quite abruptly
to the other type of waste I wanted to
-
talk about, which is nuclear waste. I
thought I saw that I needed to talk about
-
nuclear waste because because it's waste,
because it's energy. And so it's very
-
technological and extremely problematic.
So what do you do when you have your
-
country and you have a lot of nuclear
waste? I mean, the most toxic can be toxic
-
for 100.000 years, up to a million years.
It's going to be very, very dangerous. You
-
have two choices. Either you keep it at
hand like buried, but not too deep so that
-
you hope that in the near future someone
will have a brilliant idea and be able to
-
we'll know what to do with it and how to
handle it safely. Or else you do like they
-
are doing in in Finland and in other
countries. And France is thinking about
-
that. You bury them very, very deep under
the ground in deep geological repository.
-
But then you have a problem because it's
going to be to be dangerous for thousands
-
of years. So how do you inform people,
like a future generation that it's dangerous
-
and they shouldn't go nearby. Either you
use text, but then languages change,
-
languages disappear. I mean, we might
think that, oh, everybody speaks English,
-
but everybody used to speak a bit of
Latin. And now if you are confronted with
-
the text of Latin, you might not find it
easy to understand, even if your mother
-
language is English. Dealing with with an
English text from the middle age is going
-
to be difficult. I speak French dealing
with the with a French text from the
-
middle age is difficult. So how about
having some nice icons such as the skull
-
and crossbones like everybody, you would
think that everybody associated with
-
toxicity. Absolutely not. It's quite it's
quite new. It's only since the 1800 that
-
the skull and crossbones have been
associated with toxicity. In the middle
-
age Christians when they saw Skull and
Bones they tought of renewal and
-
resirection. And I guess if you show the
children the skull and crossbones there,
-
they they're not going to see toxicity.
They are going to say, oh, cool, pirate's
-
Treasure Island. So you see, that's
tricky. Yeah, the symbols. So I am going
-
to show a couple of ideas that
semioticians and artists and philosophers
-
and thinkers have thought about to deal
with how to signal to very, very distant
-
generations that there is something
special there and you shouldn't go near
-
it. Oh yeah. Okay, I forgot this one. Even
if you found a suitable message, let's say
-
you found a suitable message. You also
have to make sure that people would take
-
it seriously. The thing, the coastline off
of Japan, there are these so-called
-
tsunami stones that basically say, please
don't build beyond this point because it's
-
very dangerous. There's been a tsunami.
They will come back one day and no one
-
paid attention. Anyway, let's go back to
my artist and semioticians idea. So in the
-
early 80s, a semiotician had the idea of,
you know, to preserve the memory of the
-
presence of a very toxic, very dangerous
nuclear waste, you have to make it part of
-
society to include it in the fabric of
society. So, he suggested the creation of
-
an atomic priesthood. So that would be a
religious order that would have as its
-
mission to keep the memory of the danger
alive, using rituals and myths and
-
folklore. Some artists thought, well, we
should plan the forest like a forest of
-
genetically modified trees on top of one
of those repositories, so that in the
-
autumn the leaves would bloom and become
blue and that they would fall and that
-
there would be a nice blue carpet. And
people like in thousands of years would
-
interpret it as: oh this is a secret
place, we should leave it in peace and
-
respect it. I really love this idea. I
find it a bit naive because, you know,
-
human beings don't have a great track
record of respecting beautiful pieces of
-
landscape. So, yeah, I'm not very
optimistic. Yeah, and then there is this
-
kind of cynical idea of modifying a cat so
that the cat would stop glowing or
-
changing the color of its fur in the
presence of high red. Oh, 20 minutes
-
again. Keep adding time. But I'm almost
done anyway. So that would be a cat that
-
changes color or glow in the presence of
radioactivity. This is not one of those
-
cats this is an artistic interpretation of
Marcel Rickli. So yeah, I think it's not
-
very nice. To be honest with you, I like
all those ideas of trying to transmit and
-
connect with very, very distant time and
with people who are living in moments, in
-
times we cannot even comprehend and
imagine. But I'm not totally convinced.
-
And I mean, they're charming, but I don't
think they would stand the test of deep
-
time, mostly because it just that the
periods we're talking about, like even
-
100.000 years, it goes beyond human
experience. How do you relate to it? It's
-
just so far away that it becomes abstract
and almost unreal. So I've been thinking,
-
you know, about this project. I've been
interested in nuclear waste for quite a
-
few years now. So I've been thinking other
projects, artistic or others, that can
-
relate to, like physically or emotionally,
with very, very distant past, but in the
-
distant times, but in the past, because we
don't know the future, we don't know what
-
it's going to be like. But the past, we
kind of have an idea. I couldn't find any
-
project that really, that I was convinced
could give a good experience, a good idea
-
of relating to a distant time in the past.
Until last month, there was this big art
-
fair in Turin and I found this butt plug
by a Swedish artist called Thomas Hämén.
-
And the particularity of this butt plug is
that it's made of copper light. So it's
-
basically dinosaur poo from around 140
million years ago. And that's where I
-
discovered that there is actually a big
market for the incredible, for fossilized
-
dinosaur excrements. You can buy it. I
checked. You can buy it on Amazon. I'm not
-
sure it's going to be an authentic, but
it's available on Amazon. So I thought,
-
yeah, that's it. I mean, if you were to
buy it and use it, you would actually be
-
in close connection with a living creature
that, I mean, in intimate contact, I could
-
say, with a creature that lived at a very,
very distant time. Okay. So, we are almost
-
at the end. I have three lines of
conclusion that I'm going to read. But
-
then I want to show you a film. And my
conclusion would be that all of this is
-
very fanciful, especially the end. But it
might still be useful to keep in mind that
-
something like renewable energy that keeps
us so, so passionate, is very often viewed
-
as a long term solution to the climate
emergency. But unfortunately, renewable
-
energy relies on physical resources that
are neither infinite nor renewable. And
-
right now, it looks like we are busy
implementing a future that was dreamt and
-
conceived a few decades ago. At a time
when society wasn't worried about
-
exploding climate crises, the erasure of
wildlife and growing material scarcity
-
accompanied by an unmanageable heaps of
waste. Anyway, I've just been talking
-
about the future and I would like to end
with a short movie set in the future by
-
Alexandra Lupashko, who is a young Russian
filmmaker. And I really wanted to show it
-
to you for several reasons. One of them is
that when I knew I would come back, my
-
first thought is that, yes, I'm going to
be able to show 2050, because I really
-
love it. And the second reason is that I
really didn't want to finish my
-
presentation with a butt plug.
laughter
-
(Video starts playing)
Music
-
Music
-
loud heartbeet
-
laughter in the audience
-
sound of a shot
-
applause
-
music
-
Yeah.. applause
Yeah. I forget to say it had nothing to do
-
with waste, but it was just irresistible,
I had to show it to you. Okay, that's it
-
for me. Unless you have questions.
Herald: Thank you very much, Régine
-
Débatty. applause As usual, if you have
questions, we have microphones over there
-
and microphones over there. Please stand
in line. And of course, we have questions
-
from the Internet. OK. In the meantime,
small thing. If you want to read, know
-
about.... Sorry, if you want to read more
about Régine. She writes also on a
-
website. It's called "We Make Money, not
Art dot com"
-
[https://we-make-money-not-art.com].
Which is, at least if I am concerned, a
-
brilliant title. And you write about what?
Régine: I've been writing, I mean, I think
-
is for almost 16 years about the way
designers, artists and hackers are using
-
science and technology in a creative but
more importantly socially engaged way. So
-
it's quite political, I like to think.
Herald: Which suits perfectly to this to
-
this event.
Régine: Yeah.
-
Herald: So questions? I see none so far.
None so far. In this case, we can...
-
Number four is this.
Microphone 4: Um.
-
Herald: Now in this case ... I heard an,
um. No question. In this case, we can chat
-
a little bit more about your website.
Régine: Okay
-
Herald: So if you want. If you want.
Régine: Yeah. It's not going to interest
-
people.
Herald: I'm pretty sure it does.
-
Régine: Okay.
Herald: Because I had a quick look and it
-
was pretty impressive. You write
about AI as far as I know.
-
Régine: That's the thing. When I knew I
was coming to talk about the best of 2019.
-
I was like, this year I've had to deal so
much with AI outside of my blog that I
-
said "no more AI" except maybe for the
film at the end, that, you know, is a bit
-
AI, but otherwise...
Herald. No AI?
-
Régine: Yeah. On my blog, there's been a
lot of AI. Yeah. Yeah. I'm a bit sick of
-
it. Actually, one of the last ... I wrote
about was by Julian Oliver who spoke just
-
before me now. Yeah.
Herald: Cool. In this case, no more
-
questions. Thank you very much.
Please, a warm applause for Jean.
-
applause
-
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