GMU:Connecting Max to the World/Sirin Unmanee: Difference between revisions

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In this project, I will capture the electrical conductivity of the bacteria and other organisms for conveying the massage that there are many microorganisms everywhere around us. Then, I will send that input to Max/msp to generate a 3D/2D graphic of their electrical conductivity and project that graphic onto the wall, therefore the audiences can be participated.
In this project, I will capture the electrical conductivity of the bacteria and other organisms for conveying the massage that there are many microorganisms everywhere around us. Then, I will send that input to Max/msp to generate a 3D/2D graphic of their electrical conductivity and project that graphic onto the wall, therefore the audiences can be participated.
The next step is to realize about sending a feedback back to the bacteria to build a close circuit.


This project is related to my DIY Bio project here.  
This project is related to my DIY Bio project here.  

Revision as of 13:27, 30 January 2019

In this project, I will capture the electrical conductivity of the bacteria and other organisms for conveying the massage that there are many microorganisms everywhere around us. Then, I will send that input to Max/msp to generate a 3D/2D graphic of their electrical conductivity and project that graphic onto the wall, therefore the audiences can be participated.

This project is related to my DIY Bio project here.
Link to my DIY Bio Project

The graphic style is inspired from an image of bacteria and other organisms under the microscope, mostly is dots and particles.


I followed the tutorial to create my prospective visual, but instead, my input is the electrical potentials from organisms, the experiment that I did can be found here

1548854244532.jpg

S 2875419.jpg

Arduino sketch : File:sensor_reading.ino

Tutor00.jpg

Max/msp patch: File:maxproject sirin 2019012801.maxpat

This patch is about jit.gen and jit.matrix to generate a particle effect. The jit.gen is used for calculating force and mass to drive the particles, also the movement of them. In the tutorial, the equation that he used is F = m*a and the particles will move in a vector quantity, in this case, to the center.

Tutor02.JPG Tutor03.JPG

As a result, the particles are moving to the center when there is a change from electricity potentials, when the input doesn't change, the particles will arrange in circle. The visual is inspired from the image of the organism that I cultivated inside the petri dish.

After testing on the organism's electric potentials, I noticed a tiny difference in the result in every organism. I will use that input to shift the visual i.e. color and shape to represent their appearances in a experimental way. However, the particles' movement will remain the same in every input.

Capturemax04.gif

Capturemax05.gif

Capturemax06.gif


Further Research

References