Difference between revisions of "Bicycaleidoscope"

From CCRMA Wiki
Jump to: navigation, search
(Similar Work)
(Added list of materials)
Line 105: Line 105:
  
 
=== List of Materials ===
 
=== List of Materials ===
 +
 +
''Necessary''
 +
 +
- 1 to 3 bike wheels
 +
 +
- A rod (metal) to mount the bike wheels
 +
 +
- Hall effect sensors (probably 1-3) to detect movement of the bike wheels
 +
 +
- Small magnets (+ a way to mount them to the wheels) for the Hall effect sensors
 +
 +
- Arduino + computer (or Raspberry Pi), speakers
 +
 +
- Wires, connectors for joining sensors with Arduino + computer
 +
 +
- 3 long mirrors for creating the triangle of mirrors
 +
 +
- Three 60 degree rigid angles (metal, wood, etc) plus fasteners to secure the mirrors into the triangle
 +
 +
- Washers and possibly nuts for holding the bike wheels in place
 +
 +
- Colorful gels for placing on the bike wheels (likely colorful beads etc as well)
 +
 +
- Frame for mounting bike wheels and mirror in the right relation to each other
 +
 +
''Likely''
 +
 +
- A camera and projector to take the view from the mirror tunnel and make it more broadly accessible (+projection screen)
 +
 +
- Sensors on other parts of the mount for other audio effects
 +
 +
- Spotlight to have enough light for the kaleidoscope effect
 +
 +
- Clip-on weights for the bike wheels for more interesting rotation
  
 
=== Steps for Minimal Viable Product ===
 
=== Steps for Minimal Viable Product ===

Revision as of 23:43, 3 November 2013

Bicycaleidoscope: A Giant Musical Kaleidoscope

Music 250a, Fall 2013

Brie Bunge and Sophia Westwood

Drawings

Early sketch of a musical kaleidoscope:

This sketch came from the brainstorming assignment for class -- the initial idea is a small, handheld kaleidoscope where the music syncs up with the visualization.

ConductiveKaleidoscopeSophiaWestwood.jpg



Design sketch of a larger, more public musical kaleidoscope experience:

Design discussions with Sasha led to the idea of using bike wheels and a spotlight to project a kaleidoscope onto a wall, with Hall sensors to track the velocity and acceleration. This sketch shows a series of bike wheels mounted on a rod. The idea is that the musician would spin the bike wheels by hand to control both the musical output and the visual results.

Early-kaleidoscope-sketch.jpg


Starting to build the instrument:

We procured bike wheels from the bike store and a metal rod from the garage and started to set up the instrument. We experimented with using the bike frames (in the background) as part of the mounting system. The mirrors (also in the background) will form the tunnel of the kaleidoscope. Our experimentation with the wheels and the mirrors proved that the mirror tunnel is key to the visual effect of the kaleidoscope -- otherwise, only having spinning gels and beads feels a little lame.

Mounted-bike-wheels-early.jpg

Bike-pic-setup-oct31.jpg


Sketch for mounting the sensors

Now that the bike wheels are mounted, we started to think about how to incorporate sensors into the instrument. This idea is to mount the Hall effect sensors on the rod itself (stationary), to track the bike wheel movement. Then, the mirror will cover only the bottom half of the bike wheel, so that the sensor does not interfere with the visual effect.

Sensor-mount-sketch.jpg

Similar Work

A giant digital kaleidoscope which is activated by the participation of the viewer

Takeaway: Viewers enjoy interacting with the kaleidoscope, so we should make sure that viewers can be expressive and creative in their interactions. Also, giant kaleidoscopes are awesome!

Nationalmuseum-sg-giant-digital-kaleidoscope.jpg


Bike Wheel Art

Takeaway: This is great inspiration for how we might want to incorporate colors into the bike wheel spokes.

Bike-wheel-art.jpg Bike-wheel-art-2.jpg


Bike rack tree

Takeaway: Love this beautiful bike rack tree. We could go with a more junkyard aesthetic, like some of the other images here. But, going with this more minimalist/clean aesthetic could perhaps have more of a wow factor, like in this case.

Bike-rack-tree.jpg


Three bikes mounted together as a tree

Takeaway: The bike frame/part aesthetic is appealing.

Tri-bike-tree.jpg


Recycled bicycle sculpture

Takeaway: Another incorporation/celebration of the junkyard aesthetic

Recycled-bicycle-sculpture.jpg


DIY homemade giant kaleidoscope

Takeaway: Light and colors make the kaleidoscope more visually engaging

Homemade-giant-kaleidoscope.jpg


Giant kaleidoscope made for an event a Tate Modern in 2008

Takeaway: People seem to enjoy playing with the altered visual state that kaleidoscopes create

Tate-giant-kaleidoscope.jpg Tate-giant-kaleidoscope-inside.jpg


Sunrise Bike Wheel Kaleidoscope

Bicycle wheel with an axle extending out of the side that can be used as a handle while the bike wheel spins. This video shows footage from a camera mounted at the center of the wheel, mirrored four times.

http://vimeo.com/46521897

Need/Want/Have

Elevator Pitch

We are building a giant musical kaleidoscope with bike wheels. The musician spins bike wheels with colorful gels to create awesome visual effects while sensors translate the wheel movement into music. A large kaleidoscope triangle of mirrors reflect the visuals while Hall effect sensors pick up the wheel acceleration and velocity and translate the activity into music.

List of Materials

Necessary

- 1 to 3 bike wheels

- A rod (metal) to mount the bike wheels

- Hall effect sensors (probably 1-3) to detect movement of the bike wheels

- Small magnets (+ a way to mount them to the wheels) for the Hall effect sensors

- Arduino + computer (or Raspberry Pi), speakers

- Wires, connectors for joining sensors with Arduino + computer

- 3 long mirrors for creating the triangle of mirrors

- Three 60 degree rigid angles (metal, wood, etc) plus fasteners to secure the mirrors into the triangle

- Washers and possibly nuts for holding the bike wheels in place

- Colorful gels for placing on the bike wheels (likely colorful beads etc as well)

- Frame for mounting bike wheels and mirror in the right relation to each other

Likely

- A camera and projector to take the view from the mirror tunnel and make it more broadly accessible (+projection screen)

- Sensors on other parts of the mount for other audio effects

- Spotlight to have enough light for the kaleidoscope effect

- Clip-on weights for the bike wheels for more interesting rotation

Steps for Minimal Viable Product

- Mount 1-3 bike wheels onto a rod with color gels and beads to create an interesting visual effect.

- Place a triangle of mirrors such that looking through the triangle reflects the bike wheels in cool ways.

- Mount sensors onto the instrument to sense the movement of the bike wheels (at least one bike wheel for MVP).

- Connect the sensors with an Arduino + Raspberry Pi (or computer) and translate the sensor input into basic musical output (perhaps simple pitch and modulation for MVP).