474
edits
GMU:Connecting Max to the World/Sirin Unmanee (view source)
Revision as of 13:20, 30 January 2019
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I followed the tutorial to create my prospective visual, but instead, my input is the electrical potentials from organisms, [https://www.uni-weimar.de/kunst-und-gestaltung/wiki/GMU:DIY_Bio:_doing_things_with_biology/Sirin_Unmanee/Electric_Potentials the experiment that I did can be found here]''' | I followed the tutorial to create my prospective visual, but instead, my input is the electrical potentials from organisms, [https://www.uni-weimar.de/kunst-und-gestaltung/wiki/GMU:DIY_Bio:_doing_things_with_biology/Sirin_Unmanee/Electric_Potentials the experiment that I did can be found here]''' | ||
[[File:1548854244532.jpg|400px]] | |||
[[File:S__2875419.jpg|400px]] | |||
Arduino sketch : [[:File:sensor_reading.ino]] | |||
[[File:tutor00.jpg|700px]] | [[File:tutor00.jpg|700px]] | ||
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. | 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. | ||