-
36C3 preroll music
-
Herald: But thanks that you all are here.
Actually, since it's all teardown moment,
-
still, we have enough, we have lots of
people here. Interesting. This is as well
-
an interesting talk because it's Helen
Leigh who's going to present this.
-
Actually, give us an overview actually
about what hackers, you know, in music
-
meant actually in the history. So to give
an overview, if I understood this well,
-
she gives certain examples. And I think
she's gonna kick this a little bit further
-
because she's going to talk a little bit
about her current work and future
-
objectives. So I would fasten seat belts,
I would say. Yes. Helen Leigh. Give her a
-
warm applause.
-
applause
-
Helen: Hello? Yep. So I'm Helen. This is
if you want to follow my stuff or download
-
any of my things that I mentioned in the
talk about GitHub and various plots of my
-
work on Twitter. So here we go. OK. Right.
I am going to talk to you today about
-
we're gonna give you a story. I'm gonna
give you a story about how a group of
-
music hackers in the 1940s changed the
face of music technology forever and how
-
they didn't know anything by what they
were doing. But they still manage to do
-
some incredibly cool things by just
disregarding and being really awesome
-
hardware hackers. I'm also gonna give you
an overview of some of the coolest
-
projects coming out of London and Berlin
at the moment. So I've been... I'm living
-
in Berlin at the moment, but I was active
in the music hacking scene in London for a
-
long time as well. So I'm going to show
you some cool projects. And before I start
-
off on my story and cool projects I'm
going to just introduce myself. I am a
-
creative technologist, which is a
ridiculous buzzword. But people like to
-
put you in a box. But I'm basically a
massive nerd who really likes arty stuff,
-
so I'd like to smash them together. My
favorite things to smash together are
-
electronics and hardware and with music
technologies. And so with that in mind, I
-
make a lot of strange musical instrument
creations, usually very experimental in
-
form. I'll show you some of that as well.
This is one of my experimental
-
instruments. I make sonic psycho sculpture
creatures and I've taken them on
-
residencies in London, Shenzen and
Copenhagen. And I just really like
-
experimenting with what a musical
instrument looks like. And not so much
-
what it sounds like. I mean, I am into
other people's noise art. But for me, I
-
like my instruments to sound melodic. But
yeah, form, I'm very interested in
-
experimenting with. I also really like at
the moment - this is made out of brass.
-
And I've made a lot of stuff with
different metals. But at the moment, I'm
-
on a big soft circuit kick. And so I'm
experimenting with electronic embroidery
-
and soft robotics to make kind of kinetic,
sculptural, squishy creature things. And
-
I'll show you some of that later, too. And
obviously, this doesn't pay my rent,
-
shockingly. So I also do some product
design and a lot of curriculum based
-
things, remember, I'm a writer as well. So
this is a product that I designed. That's
-
actually my hand on the box. Very
exciting. And it's a wearable instrument
-
for children sold by PIMORONI and Adafruit
and et cetera. And it's a DIY wearable
-
gesture based instrument for children to
learn how to code with. And I designed
-
that with Imogen Heap. And I'll tell you
about that cool project later. But that's
-
something I do. And I also do a lot of
writing. This is a still from one of my
-
books I wrote recently. Last year it came
out, one called The Crafty Kid's Guide to
-
DIY Electronics, where I teach basic
electronics through the medium of paper
-
craft, origami, sewing and kind of like
DIY robotics as well. I also write for
-
Hackaday. I've written for blah blah blah,
doesn't matter. I write words for money
-
sometimes. Anyway, that's me. I am going
to tell you as one of my favorite stories
-
of music, tech history. I'm going to start
off here with this rather pretentious
-
quote from a rather pretentious man who I
still kind of love is a guy called John
-
Cage, who most people know him for his
experimental compositions and his many
-
and varied writings on on the subject
of what is sound and what a sound artist.
-
But he was also pretty early on a hardware
hacker. He made experimental instruments.
-
Actually, one of his first famous pieces
was him like smashing up a piano and
-
changing that. So he was a composer, but
he was also an experimental hardware
-
artist. I mean, he said this. There is no
noise. There is only sound. And the reason
-
I put this quote up there is to kind of
make you... remind you that all music is
-
made up. Okay. All instruments are
inventions. The violin wasn't a violin
-
until probably the 13th century when
various instruments that came before it
-
converged and someone using new
techniques, new tools. And it starts and
-
it keeps revolving through the ages.
Right. And I think you could think of an
-
instrument as a - as a specific thing, but
it's really not. We've been messing around
-
with science since we've been humans,
basically, and deter with compositions.
-
You might think of classical music
mainstays like Stravinsky, Strauss or
-
Debussy as, as these kind of like boring
establishment figures, but actually in the
-
day they were seen as avant garde. People
walked out of their performances. There
-
were hit pieces about them in the mails.
You know, the Daily Mail of the time. So
-
basically, anything that sounds strange to
you now or something that's experimental
-
to us could well have an influence in a
long reaching way. So, yes, here we are.
-
Oh, I'm going to tell you. But my favorite
conspiracy theory as well. So even down to
-
the note A, 440 Hertz, middle A. And it's
- It was not even - it was not the letter.
-
Sorry. It was not 440 Hertz until the
1950s when a group of dudes met up in one
-
room in London. And then everybody signed
this agreement saying, OK, now an A is 440
-
Hertz. Before that, a flute in Italy might
sound different to a flute in France.
-
You'd have like this small tonal
variations. So it wasn't until yeah the
-
1950s that it became actually the letter
A. There's a wonderful series of
-
conspiracy theories around this that
actually that they chose 440 Hertz because
-
it's a method of population mind control
and there are alternative websites out
-
there, now you can literally go and if you
search for like uhm 440 Hertz
-
conspiracies, there are websites that are
campaigning like groups that are
-
campaigning for it to be changed for the
whole of modern music to be a to be
-
changed. There's one at 432. There's one
at 438. And if you're in the 438 camp,
-
because there are opposing camps as well.
So if you're in the 438 camp, you're in
-
luck because someone's made a music
adjustor. OK, so you can take your track
-
that you've done and you can put it into a
converter and it will convert all of your
-
music into 438. So you can do that if you
like. And there's even a radical fringe
-
group calling for the middle A to be 538,
which is absolutely insane. But there we
-
are, I love it. And so if you ever want to
go down a conspiracy theory YouTube black
-
hole, which you probably will do, we're
all at camp, uh congress, not camp. You
-
can look at that. But basically my point
here is that music is all made up.
-
Instruments are all inventions. So, you
know, there are no rules. I'm gonna take
-
you through em - one of the paths, one of
the many paths of music history and music
-
hacking. And we're going to look at one
piece of hacked technology and how people
-
who played with that and did things with
it that they weren't supposed to do
-
changed modern history, modern music
production. This is the magnetic tape
-
recorder. It's a lovely device. And it was
used popularized in World War 2 by the
-
Nazis who used it to chop up propaganda
and so on. And after the World War, after
-
the World War and the BBC took on it, took
it on themselves to try and develop a
-
version of this. So this is a relatively
modern technology. In the 40s and 50s,
-
it started becoming becoming popular and
it was used for real to real broadcasting,
-
right. Before this, it was grammophones.
But a bunch of - so they were used in
-
music studios and they were relatively
expensive. As it became cheaper, a bunch
-
of music hackers saw its potential to do
something more than just line it up. So
-
these hackers got their hands on a bunch
of these and a bunch of these magnetic
-
tape recorders. And as people want to do
with technology that they get their hands
-
on it. They started to fuck with it in a
new and very exciting ways. And what they
-
did is they they as a movement in Paris
and then early 1940s called musique
-
concrète, which was the first group of
people who were doing this. Aside from one
-
lonely guy in Egypt as well. But there was
like the epicenter of this was - is in
-
Paris. And what you do is you see the the
actual tape there. You use a razor blade
-
to cut it. And then you can, for example,
flip it over, tape it back together, and
-
then you've got one piece that's
backwards. Right. OK. And using that
-
technique, I'll show you how actually you
this is it.
-
sounds playing
OK, so not only can you chop things up and
-
turn them around, you can speed them up
and slow them down. This gives you - this
-
seems - so, basically, if you do it
faster, it will give you a higher tone.
-
And if you do it slower, if you slow it
down, it will be lower. OK. We all know
-
this kind of instinctually now. But back
then, this was fellow. This was completely
-
revolutionary. You could make sounds that
were not existing in nature. Take, for
-
example, the plucking of a violin string,
okay, you pluck a violin string. And it
-
comes on quick. It's like boom. And then
if you let it die off, there's a "laaa".
-
So what we call that in music is a sharp
attack on a long delay. And that's how a
-
lot of musical instruments or natural
science will work. OK. They will fade off,
-
OK. But using this technology, you could
switch it around. So it had the
-
opposite effect. So like "uooom" the long
attack and a short delay. So you could
-
create sounds that are not found in nature
now, which is extraordinary. And at the
-
same time, there was the advent of
something called field recording, which
-
was you could go outside instead of having
to record in a studio. You could have a
-
physical piece of equipment that you could
carry around with you and a microphone, so
-
you could go and record sounds outside.
Found sound is what we call that. Then you
-
could take it back to the studio, chop it
up with a scalpel, sellotape it back
-
together, rerecord it, and you could
create... This is just you know, it's just
-
a huge, vast new set of tools that you can
work with as somebody who's making music.
-
Now the first people doing this were, as I
say, these French guys in Paris
-
and in musique concrète. And they
were doing it. And due to modern music,
-
digital preservation techniques, you can
hear these, the sounds they were making on
-
YouTube. You can spend some time and
listen to that. And I won't lie, they
-
sound pretty awful. Nobody wants to listen
to that. I mean, unless you're a true
-
enthusiast. But it's not it's not about
the music they were making, is about the
-
techniques that they were creating, their
experimentation sounded terrible but
-
actually was incredibly influential. We
use sampling now as just an ordinary
-
thing, but this was the technology behind
it. It really came to a head in the 1960s
-
when Beatle - the Beatles were the first
people to use this technique on "Tomorrow
-
Never Knows". Now, normally, well, I would
play this, but when I did, at a talk
-
similar to this at the Hackaday Super
Conference, they uhm they pulled my
-
livestream because there was a 10 second
snippet of the Beatles. So I've decided
-
not to risk it today. But you can look up
"Tomorrow Never Knows" and you can hear
-
these "woauum, woauum, woauum" kind of
sounds. And that's actually flipped.
-
That's just flipped sounds that the - all
of the Beatles brought in sounds from
-
their home. They flipped it around,
speeded up and slowed it down. There's a
-
famous like very high pitched
"hiehiehiehiehie" sound in that song and
-
it's just Paul McCartney laughing and
they've manipulated it using sticky tape
-
and scalpels. Anyway, so that was the
beginning of these new production
-
techniques, right? You can use these in
modern music, you know, when you're in
-
your Ableton or your Logic or whatever.
You know, those are just standard
-
features. But this was the beginning of
it. And it's incredibly influential. I could
-
follow it down this path. But I'm
actually going to take this and
-
leave them to go on with modern mainstream
production. And I'm going to talk about
-
this woman instead. Who was one of my
favorite things about hacker culture is
-
the way that we learn from each other and
the way that we rev off of each other's
-
work. And so I'm gonna go slightly
sideways and talk about this artist and
-
engineer. Her name is Daphne Oram, and
who's heard of Daphne Oram? All right.
-
Like ten of you. Which is more than usual,
actually, to be honest. So Daphne Oram is
-
- everyone should know her name and that's
why I never shut up about her. She was a
-
musician and physicist, an electronics
engineer who was unfortunate enough to be
-
a woman. And was - has a pretty tragic
work history. But she... she's one of the
-
iconic figures of early electronic music.
She should be as well-known as any of the
-
- as Moog or whatever. But anyway, so
she's a trained musician and she got a job
-
at the BBC queuing up these reel to reel
magnetic tape recorders, which is actually
-
a pretty big deal at the time for women as
well. So she would. She went on a training
-
course to Paris and - just studio
recording techniques. You know, standard
-
corporate training. Right. And while she
was there I believe she met some of the
-
people behind the musique concrète. And
she was basically and they showed her what
-
they were doing. And it totally blew her
mind. She was like, oh, my God, I will
-
take this back to the BBC. It's gonna be
so cool. I'm going to revolutionize
-
everything. It's gonna be awesome. She
took it like that. And predictably enough,
-
everyone was like, no, go back to pressing
buttons. So she did. But she also would
-
run around at the BBC late at night after
hours stealing bits of equipment from
-
other people's studios and wheeling them
into her own studio. And she would
-
experiment with all these musique concrète
methods. And she was an electronics
-
person, as well, and she was one of the
first people in the world to make purely
-
electronic music, because she was one of
the first instances of someone who
-
recorded her oscilloscope and then started
using that for compositional purposes as
-
well. And she was doing this for maybe
five, six, seven years. And at the end of
-
that, she started to get some interest.
She managed finally to convince somebody
-
to give her a commission to create some
incidental music for a piece of - for a
-
show. And erm and it was a success. Also
people hated it. Of course. But enough
-
people wanted her to repeat it that
eventually the BBC gave her her own studio
-
which is like absolutely, you know, out of
the question for someone in the fifties,
-
for a woman in the 50s. And so she she was
starting to make this but she erm
-
unfortunately at this point she got the
BBC Radiophonic Workshop, which is one of
-
the most iconic sound design workshops and
studios in the whole history of music
-
technology. So she starts this workshop,
the BBC Radiophonic Workshop, but a year
-
later she leaves to start her own artists
practice because they - they said she said
-
they wanted my ideas and they wanted my
work but they didn't want me. So she had
-
to leave her life's work. And she was
largely erased, actually, from everything
-
that she did, even though she founded this
iconic this absolutely iconic workshop.
-
And she went off and created. She didn't
have a sad life after that. She - she went
-
off and created em, this wild synthesiser,
which is in the London Science Museum. And
-
I was like instead of she she loved
looking at wave forms of music. So she
-
thought she would use watercolor to draw
the wave forms and then have a synthesizer
-
interpret those wave forms. And that's
called the Oramics Machine is like
-
absolutely wild. You can look that up on
the Internet as well. It's cool to look
-
at. So, yeah, she's becoming a bit more
popular now because of the work of some of
-
the guys at the Radiophonic Workshop who
still exist. Some of the old guys who go
-
around telling cool stories about them.
And but also because of the woman she
-
helped bring in who stayed after she left.
And she's quite famous now because of
-
something I'll show you. It's this lady.
And this is Delia Derbyshire, who's head
-
of Delia Derbyshire. A lot more of you. I
thought so. Now, Delia Derbyshire again
-
the same? She's got a maths and music
degree. She couldn't get a job, but she
-
ended up basically pestering them into
letting her do some interning at the
-
Radiophonic Workshop and eventually got a
job there. And then she was the arranger
-
and made the instrumentation for this. Now
I'm going to play this for you. Before I
-
do, I want you to think about the fact
that at the time every sound had to be
-
physically cut and sticky taped together,
every sing-. And there's no multi-track
-
recorders back then either. OK. So you
have to. It's an absolutely enormous
-
process of recording the sounds,
stretching the sound, cutting the sounds,
-
sticking it back together, making on a
reel, recording that onto a separate reel.
-
Then you've got this and then you add more
sounds and then you have like several
-
tapes that you have to condense into each
other without multi-track technology. OK.
-
They're literally on different machines
shouting "Go" at each other. And that's
-
how they recharged multi-track. But she
was very blasé about it. It was kind of amusing
-
because it seems ridiculous to me now
to be able to compose a piece of music
-
like that, like a jigsaw puzzle. But
she just shrugged and said, well,
-
seemed to work. I find that kind of charming
but yes. So that's. Oh, no. Why didn't it play?
-
low volume static noise
-
Oh, no. Huh, goddamned. Well I'm gonna
play it for you anyway.
-
Oh, it's playing! Oh good, it just took a minute.
-
Doctor Who Theme playing
-
[over the music] No theremin. No
synthesizers existed. This was literally
-
just tapes. And she also made her own
instruments so she [inaudible], including
-
my favourite which is called the
wopulator(?). And that just a good name
-
Yeah, so uhm, they actually used a lot of
electronic engineering gear in their work.
-
Anyway, we know how this goes. And I don't
want to get another copyright violation.
-
Doctor Who Theme stops
So let's move on. I did actually want to
-
play one of her own songs, so that's her
commercial work. But she was also an
-
electronic experimental musician of her
own and on her own accord. And she I think
-
you kind of forget that music in the 50s
and 60s actually kind of was wild as well.
-
Let's see if we...
Music playing
-
[talking over music]
This is one of her tracks from the 60s.
-
Kind of a banger.
[making sounds]
-
You might even recognize this track,
because someone did sample it.
-
Die Antwoord literally just rapped over the
top of that and then released it as a
-
track. She made this for a science fiction
show that was based on an Asimov story and
-
this remains, but the Asimov story that it
was made for has been deleted from the BBC
-
archives, which I find to be an absolute
tragedy. I would love to watch that. If
-
you uhm if you flip it back, the robotic
sound is singing "praise be to the
-
master".
Music stops
-
Thank you, Daphne. And so that's the
that's my story of the BBC Radiophonic
-
Workshop. But I wanted to leave you with a
quote from one of the BBC Radiophonic
-
Workshop engineers. Unfortunately unnamed
in the documentary that I watched and I
-
just thought this was kind of a cute
sentiment because they were making things
-
up. They weren't - they weren't the
experts in the room. They didn't know what
-
they couldn't do. So they just basically
managed to mess around with stuff and
-
ended up with something really special and
really cool and something that was just
-
iconic. You know, some of the biggest
electronic music acts in the world today,
-
still say that the work at the BBC
Radiophonic Workshop was one of the big
-
influences in life as well. So. So, yeah,
that's the BBC Radiophonic Workshop. And I
-
think it's very important that we allow
for ridiculousness in technology and we
-
allow for ugly noises and we allow for
stupid things that don't fully - you don't
-
really see what they're for. Like the
power of them allowing for experimentation
-
that isn't very successful at first or
doesn't sound successful. The idea is
-
really important. Yeah. So outsiders,
hooray. That was a golden age. We've got
-
the invention of a new technology and what
resulted in democratization. You know, the
-
availability of a new technology to a
reasonable number of people led to this
-
uhm to this amazing sea change in the way
that people made music, made digital music
-
and analog back then. But, you know, the
way that we make music was changed by
-
these experimenters. It was definitely a
golden age for - for new techniques. But I
-
think that we're currently in a golden age
for people who are working with
-
experimental instruments and experimental
sound in general. And I think that we. So
-
we've got loads and loads of really
exciting new technologies that are
-
available. We've got cheap
microcontrollers. We've we can make our
-
own PCBs. We can make our own
synthesizers. We can access people, which
-
is which is really crucial. I mean, think
about Daphne. She didn't learn about
-
musique concrète and she didn't find the
BBC Radiophonic Workshop until she had a
-
spark of an idea from somebody else. So
really, it is learning tools, learning
-
type, you know, gaining access to tools,
learning new techniques and learning and
-
being inspired by other people is really,
really critical for anything to to really
-
change and to really and to happen. But I
think that at the moment we've been
-
really, really cool, accessible new
technologies that more and more people are
-
learning how to use and more and more are
becoming much simpler as well. And and
-
crucially, people are more accessible. So
people share, particularly in our
-
community, people share their knowledge
and very freely. And you don't have to be
-
in the same room to do this. I know a
bunch of people are listening on the
-
livestream right now. So you don't have to
be here to learn about things.
-
And you don't have to be in the room to
lend it - to attend a workshop with
-
somebody. Right. There's these wonderful
YouTube tutorials now for sharing
-
information. Niche communities are just
way more accessible through online places.
-
And we've got an incredible community and
abundance as well. So this is I mean, I
-
shouldn't have put this slide in here but
it doesn't matter. Uhm so this is this is
-
one of my old hacker spaces. It's Machines
Room. In uhm in London. And it was where -
-
where the music, technology, one of the
places where the music tech community in
-
London was centered. And they did some, it
was there on the London hackerspace, but
-
we did a lot of things. But there's a
community called the hackoustic that I was
-
involved with. And we used to do a lot of
events there. I'm saying that the reason I
-
put this slide down was just just to show
that hacker spaces and maker spaces often
-
have some kind of music technology
partnerships and those kind of central
-
spaces where you can share things and
share knowledge and get inspired by each
-
other's work and also hold events is
really, really crucial. Actually, I do
-
know why I put this slide in. So, so this
slide the - this this was a wonderful
-
space for uhm for three years. And then
the landlord raised the rent four times
-
and this amazing community of artists and
designers and music hackers was removed,
-
and at the same time, the London hackspace
moved from central London to west London
-
and a bunch of other hacker spaces and fab
labs closed as well just because of how
-
expensive the center of London had had
become. And there's just as a direct
-
result of that, I moved to Berlin. So like
this is there by, by, uhm by allowing this
-
kind of gentrification of our hackerspaces
we actually do destroy community as much
-
as we can create community online as well.
Like this. So this is uhm this is an
-
example of awesome online community. This
is, um, YouTube uhm video from someone
-
from the London music tech hacker scene
and probably the most famous person from
-
it. And it's a guy called Sam who goes by
"Look Mum No Computer" on the Internet.
-
And he he's an electronic engineer and
general purpose weirdo. Which is why I
-
like him. And this is one of his
creations. He made a Furby synth, which is
-
as horrific as you imagine, if not more
so. So don't look that up. I mean, do look
-
that up. But it is genuinely be prepared
to not have a nice time. But he doesn't
-
just show his instruments. He doesn't just
perform with them. He he does really
-
awesome electronics teardowns as well. So
I've learned a bunch of stuff from
-
watching his videos and looking at
actually how he's done them. And that's
-
something that's really exciting. I mean,
like maybe 20 years ago, I wouldn't have
-
had access to this kind of knowledge. I
just would have I probably wouldn't have
-
even known that I like this kind of stuff,
you know, wouldn't have been exposed to
-
it. And then I certainly wouldn't... You
know, I've been going down my my local pub
-
saying, hey, he wants to work on, uh, on a
weird Furby instrument with me. And they'd
-
be like, well, no. So it's kind of nice to
be able to show your weird passions with
-
the people on the Internet. And then, of
course, we have, we're at one of these.
-
This is me and my friend Phoenix. We've
done a fair bit of music tech hacking
-
together. And this is actually the British
version of Congress, EMF camp. I guess
-
it's the version of Chaos camp, actually.
But so yeah, EMF camp, which is actually
-
in 2020 this year. It's a yes. It's really
cool small hacker festival or but these
-
kind of spaces and these kind of events
really allow. I mean, I've learned so much
-
just by being here the last couple of
days. And every time we do this, we should
-
cherish and we should cherish the hacker
spaces and the events. And we should also
-
support people like Sam, who makes his
living through Patreon and on YouTube, you
-
know, so by supporting maker spaces and
events and also by supporting individual
-
people who are putting the effort in to
create and share work, I think and we can
-
cherish this community. OK. Onto the final
bit. I'm going to show you some - some of
-
the cool projects that I've been working
on with other people. But the reason I've
-
chosen the ones that I'm showing you is
because they are also using some of my
-
favorite ways that you can hack on
instruments. So I figured I'd show you a
-
project, but also show you how to make,
you know, how you can have a go at it. So
-
recently I've lived in London and Berlin,
and one of my favorite things to do is
-
when I'm in a space is to make an
instrument in the context of two people's
-
work, two or more people's work. I always
find like my work is always way better if
-
I'm collaborating with somebody else. So
you know what they do and what I do
-
smushed together to create something
that's better than either of us could have
-
done on our own. And I think this is a
good example if it will play and this is
-
one of my first sonic soul circuits
sculpture creatures.
-
plucking sounds
This started off as a hack just overnight
-
hack with my composer friend Andrew Hockey
and Drew Fustini from Oshpark and myself,
-
obviously, and we worked together
overnight to create this. This is a
-
circuit sculpture. If you don't know what
a circuit sculpture is, it's basically uhm
-
instead of putting your circuit inside of
a box, all of the parts or the key parts
-
of it are shown and are actually
celebrated as art in their own light. And
-
so that's what a circuit sculpture is. And
there's a couple of wonderful people and
-
there is this guy called Mohit(?) who
makes really beautiful things. He's living
-
in San Francisco. And then this guy called
Giri(?), who is in Prague, I want to say.
-
And they make really, really awesome,
tiny, neat things. But I I'm not tiny and
-
neat, so I make big, massive and messy
things. So this is the first one I made.
-
It was really interesting to me. I really
like capacitive touch as a technology and
-
it's can be unreliable, but I find it kind
of really fun to work with. And it's very
-
intuitive for a musician. And then that
led to me developing a second creature.
-
And I'm really inspired by kind of utopian
science fiction. And I wanted to make a
-
series of creatures that inhabited the
same world and sung when you touch them.
-
So this was the second in the series. This
is a more traditional instrument. I mean,
-
obviously, it's still weird. It's more
traditional in the - past one, the second
-
one, the first one was generative in some
way, like semi generative. And this one is
-
more like one note per limb with two modes
of modulation. This is a bass.
-
synth bass sound playing
"wobb wobb wobb".
-
Helen chuckles
So that's my base creature, which I'm
-
actually developing for a real musician
now and a woman, amazing bassist called
-
Ayse Hassan who is the basis for the
Savages and just was on tour with the
-
Pixies and I'm going to - I'm making her a
stage presence one. And so she's going to
-
be able to play it, but that's gonna be
more generation based as well. But it's
-
kind of interesting to to try and create
something that in its functionality is
-
very traditional, but in its form is
really weird. And that's kind of fun to
-
play with. But now my latest one is
another creature. But this is kind of like
-
an abstract sensicle pod. It's gonna be
human sized. And each of the limbs will
-
pay a different part of the choral
arrangement. And then there's like some
-
kind of like sunlight feature at the top
where you can modulate it by touching the
-
copper rods. I've actually made a
prototype, which you can listen to. So
-
this is this is the latest version of one
of the limbs of the tentacle, which I made
-
and it just made it for the form. But then
everybody seems to really like cuddling
-
it. It's very comforting. So I decided to
make it purr after I'd finished
-
prototyping. If you want to listen to my
purring tentacle afterwards, you can. It
-
does sometimes work, but I should say
actually. Hello. So this is it. This is,
-
um. This is machine embroidered conductive
thread so that - that is able then to
-
detect capacity. That's a capacitive touch
sensor essentially - It's a sensicle. And
-
so yeah you can see that afterwards if you
want. It mostly works. I made it yesterday
-
so that's quite fine. But again, you know,
I would not have been able to create the
-
intricate sounds without the help of my
composer friend, and I would not have been
-
able you know this and I would not been
able to get the implementation that I
-
wanted onto the beagleboard whithout erm,
Drew. And so it's, it's, it's, it's really
-
nice to kind of like sit together and mash
up your mash up your skills.
-
bottles falling over
Now, these all use one of these and this
-
is another one of my instruments. This is
a wearable, flexible PCB, it's gonna be a
-
vocoder, but it's not finished yet. But.
But the reason I'm showing you that is
-
because that's the sensor that I use. This
is a they call it the trill. It's
-
essentially like if anybody viewed any of
you who used capacitive touch before, you
-
probably used an MPR121 sensor. This is
like an MPR121 sensor ++. It's much more..
-
they've got... a) it's got like 20
something pins, which is wild and it's way
-
more sensitive as well. So I find it
really really great. So if anybody's doing
-
stuff with cap touch and they're having
some problems with it: a) make sure you
-
ground it and b) have a go on that trail.
It's like 10 euros. I think that, that
-
sensor. And it is done by bela. You can
see one of their boards there. Now I'm
-
gonna do a whole slide about bela and Fan
Girl about them because they're my
-
favorite technology at the moment to use
for embedded systems, for embedded
-
instruments. And this is like the size,
this is this big. It is based on the
-
pocket beagle, which is the size of a
small Altoids tin. So it's very, very
-
small. But it runs, it runs, it's a full
Linux computer and is really, really
-
awesome. Super, super responsive, super
low latency, which is really important
-
when you're creating instruments. But also
the cool thing is it runs this. This is
-
PureData. It's a visual programing
language for sound creation. A lot of
-
artists and sound designers and music
creators, they use this already. You
-
might. This is very similar to something
called Max, actually made by the same guy.
-
But this one's open source. Yeah. So and
so that's bela and PureData. Definitely
-
worth checking out if you're interested in
instrument design. The reason the bela is
-
special is because, because of the
latency, but also because no other... So
-
you can't get a microcontroller that will
run PureData except for the Raspberry Pi
-
does. But the latency on the Raspberry Pi
is like meeh. So I would always suggest if
-
you're doing something. The bela and
PureData is a nice combo. OK. That's that
-
one. Then the other project I wanted to
talk to you briefly about is, is this is
-
Ariana Grande, who you probably don't know
who she is, but anyone under the age of 13
-
certainly will. And here she is demoing
and is called MI MU glove.
-
music playing
[talking over music]
-
It's a gesture control. I say yes, gesture
control. And she's controlling, she's
-
doing looping. She's doing effects using
gestures. Obviously, gestures, various
-
gestures. Thank you, Ariana.
music stops
-
So that's that's the that's the. This is
what she's using here. And this is coming
-
out of London. About of the music tech
company called MI MU, that was originated
-
by Imogen Heap, if you know her. And I saw
the Ariana video and something I didn't
-
mention is I actually do quite a lot of
teaching as well. And when I saw that
-
Ariana video, I just thought I was like,
oh, my God, if I showed this to a 12 year
-
old girl and told them we could make one,
they were going to lose their mind. So
-
these cost like five grand, though. So I
don't think I could get one of these in
-
the classroom. So I just messaged Imogen
and asked her if I could make a children's
-
version. And so I did. She said yes. And
she - we, this is this is a wonderful
-
piece of technology called the micro:bit.
And it's a DIY, it's like my first
-
microcontroller that is made by the BBC.
It's like 10 pounds. It's very, very
-
cheap. It doesn't do a lot. But what it
does, it does very well and very simply.
-
And I was able to make an approximation of
a five thousand dollar glove with a ten
-
dollar microcontroller, which is nice.
That's what the core of the product that I
-
made is actually in. But. I haven't got
the time to talk to you about that. That's
-
my leather robot unicorn. I gesture
control, but I can't tell you about that.
-
This is another artist, got no time for
that. So we're getting onto this last one.
-
So basically I was able to - with one
bridge, one micro:bit and a little bit of
-
code to get it to work on professional
music software. And this is a musician
-
called Bishi who's really awesome and this
is her using my ten dollar hack.
-
music playing
[talking over music]
-
To do very similar things. To the 5000
dollar. And of course, that's not stadium
-
level. Ariana claimed they couldn't use
that on tour. But it's it was a fun
-
project that we hacked together.
music stops
-
And that is that's my time. I have done
all of it, by the way. All of this, how I
-
did that. And that's all on my GitHub. All
of the code. If you've already got a
-
micro:bit, you can do, you can do it
yourself or you can get the kits for like
-
30 bucks. It's not very expensive. So all
that's on my GitHub along with some weird
-
factory signs of things. And you can
follow along on on my weird electronic
-
adventures on my Twitter. I'm pretty
reactive. So say hi to me and I'll be
-
hanging around here if you want to listen
to my tentacle. So the end, okay.
-
applause
-
Herald: Helen Leigh, woo. Thank you, Helen,
for his fantastic presentation. I'm
-
wondering actually, how are we gonna play
that thing there? What it's like. I had a
-
questions here. No. Yes. Yes. Online, of
course. They are far more, more speedy
-
than we are. Shoot!
Signal Angel: So the question from the
-
Internet is: Have you ever considered
creating music without human interaction?
-
Helen: Yes.
laughs
-
Her: Okay then, next one.
Hel: Thank you. Good night. No, I mean,
-
I'm personally I'm a very tactile person
and so I like creating instruments that
-
you... that you stroke that are
affectionate almost and kind. I like
-
giving the things that I create some kind
of persona and that you interact with
-
them. However, a lot of people use...
there's a lot people doing really
-
interesting things with generative, non-
human interactive art. In fact, the
-
composer friend that I was talking about,
Andrew Hockey, who's done a lovely... He's
-
haked a musical marble run and that is
just automated. I mean, when the marbles
-
go down, the marble run. It will trigger
generative signs, which is really, really
-
cool. There's lots of people doing it. But
for me personally, I just I know. I like.
-
I like touching the objects that I make.
You know, I'm the kind of strange person
-
who walks around a craft store with a
multimeter kind of like touching things
-
and figuring out if they're conductive,
like adequately conductive.
-
Her: You're measuring out...
Hel: Yeah. So for example, in fabric
-
stores, there might be something that's
conductive. That's not actually built as
-
conductive. Or I'll often go to art stores
and craft stores or architectural supply
-
stores. And you can find you know, you
don't have to go to Conrad. You can go to
-
Modulor with your multimeter. If I just
like you can, you know see if it's
-
conductive or it's not.
laughs
-
Herold: We believe you. I'm just imagining
you there.
-
Helen: Oh, yeah. No, it's...
Herold: At a flea market.
-
Helen: I've had some strange looks.
laughing
-
Herold: That question here from number two
please here in the front.
-
Mic 2: Have you also created instruments
that actually work with the physicality of
-
the object that you have built instead of
triggering some processing?
-
Helen: So actually, you mean...
Mic 2: Like what if the tentacle itself,
-
the sound it produces would be amplified
and somehow that, the base of the
-
processing of the actual...
Helen: Oh, you mean more acoustic. Yeah.
-
Actually when the tentacle is done it will
have some kind of physical feedback loop
-
in it that will be reactive to its uhm, to
its space, to its personal space even as
-
well. So actually the cool thing about
capacitive touch technology is if you get
-
the thresholding right, you can not just
sense touch. You can sense proximity and
-
that kind of also very cool how many
people are in the room as well. So you can
-
get it to react quite... not uniformly,
but you can get it to react quite nicely
-
to its environment and also the
way that people are manipulating it as
-
well. And you can also code some cool
things into that as well. So basically
-
based on, you know, like the number of
touches. How often people have played with
-
it and, you know, and then and how people
have played with it. And get that type of
-
feedback in to the music that it's making
in a generative fashion. There's lots of
-
cool things that I want to do with this
next sculpture. But yeah
-
laughs
Mic 2: Thanks.
-
Herold: I'm so sad. I really have to spoil it
here. Really... we have to shut this now.
-
And I would like you to ask do to talk to
her personally. Here next to the stage.
-
Thank you all for being here. Thank you.
Thank you. And leave for this fantastic
-
presentation on.
-
applause
-
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