No edit summary |
m (moved GMU:Dataflow I/Brian Bixby to GMU:Dataflow I WS12/Brian Bixby: Prepare for Dataflow I in SS 2013) |
||
(2 intermediate revisions by 2 users not shown) | |||
Line 1: | Line 1: | ||
== Project Overview == | == Project Overview == | ||
I am building an installation environment using sound and video. The project is composed with Pure Data and a live feed from a microscope. I create a sound in PD that vibrates my petri dish/microscope and this moving image creates additional sound. This becomes a circular loops of sound generation which cuts off at a certain decibel level. | |||
Here is an example of what the microscopic video of sawdust and pondwater looks like: | |||
<videoflash type=vimeo>55232052|420|280</videoflash> | <videoflash type=vimeo>55232052|420|280</videoflash> | ||
== Installation Outline & Sketches == | == Installation Outline & Sketches == | ||
During some experimentation in the studio I observed that the microscope is very sensitive to movement. I would like to install my microscope onto a sub-woofer with a petri dish on it. The petri dish will have a mixture of pond water and sawdust. The vibrations in the petri dish will create an analog reactive visual feedback to a sound source that is played. This will be presented as a stand-alone video and sound installation. | During some experimentation in the studio I observed that the microscope is very sensitive to movement. I would like to install my microscope onto a sub-woofer with a petri dish on it. The petri dish will have a mixture of pond water and sawdust. The vibrations in the petri dish will create an analog reactive visual feedback to a sound source that is played. This will be presented as a stand-alone video and sound installation. | ||
[[File: | [[File:Subwoofer microscopy.jpg|450px]] | ||
==Final Documentation == | |||
After presenting my project in it's later stages to the class I decided to make some adjustments. The idea of the petri dish tracking blobs is an interesting controller mechanism but conceptually it had little meaning. I didn't want to limit myself by the constraints of budget so I have gone ahead and created plans for building and installing this installation. | After presenting my project in it's later stages to the class I decided to make some adjustments. The idea of the petri dish tracking blobs is an interesting controller mechanism but conceptually it had little meaning. I didn't want to limit myself by the constraints of budget so I have gone ahead and created plans for building and installing this installation. | ||
== Documentation: Final Project == | == Documentation: Final Project == | ||
I combined my final project in this ''Dataflow I'' class with my work in ''DIY-Microscopy''. You can visit my [[GMU:DIY-Microscopy/Brian|DIY-Microscopy wiki page]] for more information on my final project. | |||
I combined my final project in this ''Dataflow I'' class with my work in ''DIY-Microscopy''. You can visit my [[GMU:DIY-Microscopy/Brian]] for more information on my final project. |
Latest revision as of 05:59, 14 October 2013
Project Overview
I am building an installation environment using sound and video. The project is composed with Pure Data and a live feed from a microscope. I create a sound in PD that vibrates my petri dish/microscope and this moving image creates additional sound. This becomes a circular loops of sound generation which cuts off at a certain decibel level.
Here is an example of what the microscopic video of sawdust and pondwater looks like:
<videoflash type=vimeo>55232052|420|280</videoflash>
Installation Outline & Sketches
During some experimentation in the studio I observed that the microscope is very sensitive to movement. I would like to install my microscope onto a sub-woofer with a petri dish on it. The petri dish will have a mixture of pond water and sawdust. The vibrations in the petri dish will create an analog reactive visual feedback to a sound source that is played. This will be presented as a stand-alone video and sound installation.
Final Documentation
After presenting my project in it's later stages to the class I decided to make some adjustments. The idea of the petri dish tracking blobs is an interesting controller mechanism but conceptually it had little meaning. I didn't want to limit myself by the constraints of budget so I have gone ahead and created plans for building and installing this installation.
Documentation: Final Project
I combined my final project in this Dataflow I class with my work in DIY-Microscopy. You can visit my DIY-Microscopy wiki page for more information on my final project.