Difference between revisions of "Msc2G5:Group"
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=='''GROUP 5'''== | =='''GROUP 5'''== | ||
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== '''Hua Fan & Jorik van den Bos''' == | == '''Hua Fan & Jorik van den Bos''' == | ||
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<youtube width="800">kC3KBt1n2vY</youtube> | <youtube width="800">kC3KBt1n2vY</youtube> | ||
<youtube width="800">X3PhSPm4ZZ0</youtube> | <youtube width="800">X3PhSPm4ZZ0</youtube> | ||
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== Revised concept == | == Revised concept == | ||
[[File:Concept.png|800px]] | [[File:Concept.png|800px]] | ||
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Revised concept: heatmapping acoustic ceiling, static while there is sound, waves when there is no sound | Revised concept: heatmapping acoustic ceiling, static while there is sound, waves when there is no sound | ||
First sketch impression <br> | First sketch impression <br> | ||
− | [[File:Material.jpg|800px]]<br> | + | <youtube width="800">nOQkqUFpn3M</youtube> |
+ | [[File:Material.jpg|800px]] | ||
+ | [[File:Hoberman contraption.png|800px]]<br> | ||
+ | <youtube width="800">UkIBzefdT8M</youtube> | ||
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+ | == Experiment #1 == | ||
+ | Single hoberman sphere, plastic surface with cotton/viscose finishing | ||
+ | <youtube width="400">KpCaea6UesM</youtube> | ||
+ | <youtube width="400">4TCWJz9SFmc</youtube> | ||
+ | |||
+ | == Experiment #2 == | ||
+ | Mechanical arms for expanding and compressing the spheres without strings <br> | ||
+ | Prototype 1 <br> | ||
+ | [[File:2017-06-09_12.45.58.jpg|400px]] | ||
+ | [[File:2017-06-07_15.05.52.jpg|400px]] | ||
+ | Prototype 2 <br> | ||
+ | [[File:2017-06-09_11.09.29.jpg|400px]] | ||
+ | [[File:2017-06-09_11.09.08.jpg|400px]] | ||
+ | |||
+ | == Experiment #3 == | ||
+ | More mechanical arms and materialsamples <br> | ||
+ | [[File:2017-06-12_15.38.00.jpg|400px]] | ||
+ | [[File:2017-06-12_16.40.50.jpg|400px]] | ||
+ | Materialsamples: Sheep wool on top of a polyester acoustic surface. The sheep wool is fireproofed: <br> it does not catch fire but turns into coal instead. The polyester surface is fire retardant. | ||
+ | [[File:IMG 2855.JPG|400px]] | ||
+ | [[File:2017-06-12_12.10.58.jpg|400px]] | ||
+ | |||
+ | == Final design == | ||
+ | [[File:Hallway4.png|800px]] | ||
+ | [[File:02.jpg|800px]] |
Latest revision as of 16:17, 12 December 2018
GROUP 5
Hua Fan & Jorik van den Bos
Developing a multi-performative Interactive Acoustic System for the Science Center.
Problem statement
Primary
Lessen the sound in the building by sound diffusion and absorption
Secondary
Encourage the visitors to be more quiet (especially children)
Give expression to the acoustics of the Science Center
Concept
The concept is composed of the following aspects:
Acoustic properties
- Sound ceiling with acoustic properties, passes down data to the LED painting
Time layers
- Short term layer (mostly interesting for children)
- Long term layer (mostly interesting for adults)
Reflection
- Paint a picture of the sound over the long-term
Inspiration
"Whisper - Whispering makes the children curious. They want to know if something secret is going on. Whispering gets their attention much more than yelling." [1]
“If you interrupt us while we’re talking, we will not respond. Learn to pay attention.” [2]
Soundless rooms / Nature, trees, plants, animals reacting to children (Mittal Children’s Medical Centre at London’s Great Ormond Street Hospital)
Acoustic ceilings
Record sounds based on people's height using different sensors
Pixelated animals walking across LED screens, living/whispering in the silence
Whispering ceiling, intensify sound
Dandelion: sound installation from Roland Maurmair. The dandelion says 'pssh' to encourage visitors to come closer, and shushes when the visitors make too much sound.[3]
rigid origami
First concept
Revised concept
Revised concept: heatmapping acoustic ceiling, static while there is sound, waves when there is no sound
First sketch impression
Experiment #1
Single hoberman sphere, plastic surface with cotton/viscose finishing
Experiment #2
Mechanical arms for expanding and compressing the spheres without strings
Prototype 1
Prototype 2
Experiment #3
More mechanical arms and materialsamples
Materialsamples: Sheep wool on top of a polyester acoustic surface. The sheep wool is fireproofed:
it does not catch fire but turns into coal instead. The polyester surface is fire retardant.