Practically,
- at the end of semester, I want to show motion-signal receptor and digital skin visualizer
- inside a confined environment like in a room, with a construction of motion detectors/sensors, I want to simulate the visual skin of an animal a.k.a. fur according to the motion input
Realistically,
step 1) gather motion inputed visual data = skin 10~30 (~10/30)
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step 2) import into maya and generate furs 5~10 (~11/6)
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step 3) Project-map into a room, 1 wall 1 ceiling (~11/13)
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step 4) construct a motion detecting scanner (~11/20)
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step 5) code the scanner with visualizer via quartz (~11/27)
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ep 6) put everything (VISUAL + TECH) together (~12/4)
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tep 7) exhibit, hopefully, at a gallery (~12/11)
Simultaneously,
- I evaluated that this idea of DIGITAL SKIN + MOTION DETECT seems quite complex to complete in 7 weeks
- to accelerate this process, borrow KINECT instead of constructing one
- Stochastic Image Processing
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Stochastic, a random process involving random variable and/or involving chance and probability, image processing with LED |
Browninan Motio
Brownian Motion
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a Random cat motion illustrated with type and transformed into lines in illustrator |
Brownian motion or pedesis (from Ancient Greek: πήδησις /pέːdεːsis/ "leaping") is the random motion of particles suspended in a fluid (a liquid or a gas) resulting from their collision with the fast-moving atoms or molecules in the gas or liquid. (Feynman, R. (1964). "The Brownian Movement". The Feynman Lectures of Physics, Volume I. pp. 41-1.)
A random walk
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a mathematical object, known as a stochastic or random process |