Difference between revisions of "User:LV/CRAFTING FUTURE MEMORIES"
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==RESEARCH 2 == | ==RESEARCH 2 == |
Revision as of 14:30, 28 October 2015
Stan and Lisa are on the 'Sound' team.
Contents
BRAINSTORM
RESEARCH
- https://en.wikipedia.org/wiki/Colors_of_noise
:
- http://sleepjunkies.com/features/sleep-soundly-with-white-noise/ :
In simple terms, white noise is a special type of sound signal which is used to mask background sounds.
When used to promote healthy sleep, white noise helps to drown out sounds which might otherwise prevent you from either falling asleep or waking up whilst asleep.
- http://web.cs.wpi.edu/~matt/courses/cs563/talks/noise/noise.html
- https://www.youtube.com/watch?t=4&v=3zoTKXXNQIU
- http://gizmodo.com/5-eye-popping-designs-that-visualize-sound-1465350320
Tokujin Yoshioka
Nikola Tesla / https://www.youtube.com/watch?feature=player_embedded&v=wvJAgrUBF4w
Estudio Guto Requen
Demian Conrad
Gilles Azzaro
- http://www.wired.co.uk/news/archive/2011-04/7/colours-of-noise
Ever wondered why white noise is white? It's not the only colour of noise you can get. There are a handful of others too -- which are used in a variety of different situations, including acoustics testing, electrical engineering and hard physics.
They're separated from each other by their spectral density -- the way the power that the signal contains is distributed over different frequencies. Different spreads are given different colour names, including white, pink, brown, blue, violet and grey. Here's how they differ from each other, and what they tend to be used for.
- our own experiment: playing hertz through a speaker, put a plate of cardboard on top of it and some salt 'n pepa:
watch it here: https://youtu.be/Es7wi34bbU4
-rafael rozendaal
- lukas maasen
- spectogram -> spek
- autocad -> sound
- hertz on
- ultima sound
- realtime spectogram
- data visualisation of audio
CONCEPT
concept 1:
Make your sound into an abstract art piece - a still image - to remember.
concept 2:
An ardruino with microphone to record your day -> a program that creates an image out of your sound data - your waveforms. Turn this into a functional object.
What kind of waveforms? What kind of object?
concept 3:
To convert something we want to remember forever into something with an added value.
1. A sound with value.
2. A program that converts that sound into data
3. Convert that data into object
concept 4:
Sound -> data -> data visualisation -> product that carries the added value of that sound
A sound with value: the voice of your mother saying your name->
A baby in utero can hear sounds from outside the womb. That's why your baby can recognize his mothers voice after birth.
This sound is the one of the first memory's of a human with a lot of value.
From the growth and your first years this sound (voice of your mother) is super close and almost always with you.
When your getting older this voice is starting to fade away.
You're going to live your own life and after a while your leaving your home to live on yourself.
This is one of the strongest sound memory's what a human owns without realizing this.
While you're growing apart from your mother, we bring back the memory of her voice in to your home.
We are creating a new way to memorize and experience this sound.
Through the fascinating fact that both sound and light travel as waves we saw a connection between sight and sound.
Creating a sound memory through light: converting sound into light with an arduino.
Lamp that dimms the light in relation to the soundwaves of the voice
We chose this technique because we wanted to experiment with this recently discovered method (arduino) and it is a suitable technique to dim a LED.
Working with a arduino is a challenge,we have never worked with it before.
In one sentence:
Creating a new way to save the memory of the earliest sound you hear through another form of traveling energy, light.
RESEARCH 2
- https://www.youtube.com/watch?v=dvAiM22WYHY
- http://www.absorblearning.com/physics/demo/units/DJFPh082.html
Sound and light both travel as waves. The properties of these waves differ quite considerably. Sound waves travel a million times slower than light waves. They have wavelengths between 1 centimetre and 10 metres, and will easily diffract round corners. Light waves have much smaller wavelengths, and only diffract through very small holes. This difference is the reason why you can often hear things that you cannot see.
-Light and sound both travel as waves.
Light waves and sound waves are both forms of energy.
Both types of waves change their speed when they travel through various media.
Both light waves and sound waves can be reflected and refracted.
Light waves travel faster than sound waves.
Sound waves travel slower than light waves.
Light waves do NOT require a medium through which to travel
Sound waves require a medium through which to travel.
Light waves can travel through space or in a vacuum.
Sound waves can not travel through space or in a vacuum.
Sound travels best through opaque objects.
Light does not travel through opaque objects.
-http://www.athenna.com/dancing-patterns-of-blue-light-react-to-sound-waves/athenna/web_design/teoria-de-design/
GabeyTjon
- https://www.youtube.com/watch?time_continue=128&v=uENITui5_jU
- http://prafulla.net/interesting-contents/science-and-technology/embedded-texts-and-images-into-audio-spectrographs/
Aphex Twin, hidden message in audio
-http://www.wired.com/2012/11/human-brain-harmony/
A consonant interval (left) sends a regular sound wave to the brain; dissonance results in an inharmonic spectrum and produces "beating" (right). Image: Cousineau et al./ PNAS