Qianhua Fu
CANON
Sounding the Inaudible
Content Project Work Abstract Concept Canon in three layers Design Iterations First Idea : A mix media interactive installation Second idea : A Kinetic Sculpture interacted with hand gesture Third idea : An Emergent Kinetic Sound Machine Final Prototype (on Project Fair) What’s next My Interest and research question Key Practitioner references Bibliography
The
CANON
is a compositional technique for creating musical harmony by
repetition of similar melody with time delay. In this installation, the canon is reinterpreted as an emergent kinetic musical instrument. It consists of six layered kinetic sculpture making rhythmical percussion sound by its own motion. The motion of each kinetic sculpture is triggered by the present position of body walking through space over time. In this way, it generates overlayed emergent percussion sound and motion with interval depending on overlapping the present and the past of body in space.
Canon in three layers
Drawing
Visualliation
Animation
Motion
Storeytellinb
Emotion
First Idea: A mix media interactive installation
Second Idea: A Kinetic Sculpture interacted with hand gesture
Emergent Pattern Making We made a series of emergent pattern.
Structure Making Fix the laser cut pieces on a axiel shaft to make a flexible and rotateble emergent pattern. The pattern part will be fixed on servo by wood cross.
We use 1.5 meter length timber wood bar and 15 mm thickness timber wood board made a stand structure to hold the rotation part. The base of this wood stand is designed in trangle fixator to extenuate the viberation from sevor. Audience could obeserve the rotation it in a parallel eyesight and influence rotaion angles by apporaching this installation.
Simulation
We use Kinect as our motion sensing input device which could collect 3D data and recognise participant’s position and gesture. In this project, we use it as the imput device to collect participant’s motio data, especially their hand gesture and postion. When participant lift his hand and walking close to the installation, each layer’s pattern will rotate as same angle with his hand. Then, the rotation will spread cross layers with the time go on .
* Click the picture above, play the video of simulation processs in processing.
Third Idea: A Kinetic Emergent Sound Machine Cog Design
According to the feedback from audience, each layer’s pattern is too compilcated and abstract their attention. Another problem is the scale of installation is too large. To solve these problem, we change each layer to a more simple shape and use cog to transfer movement from servor to pattern part. Then, the pattern part could show a clear full view without shelter of servo. To present the idea of melody Canon, we add each layer with a shade inside which enclosed several marbles. With the rotation of shade, marbles will pronounce click sound with rhythem.
Table-stand Structure To provide a more stable support and save more cost, we build a table-stand structure to hold each layer of installation.
Assembly
All the wood and archlic components are cut by laer cutting macine. Most parts are connected by screws and
Motor House
wood glue to make them stable. However, the core part, which include motor hoseing and cog’s joints use mor-
• Use wood glue stick many layers of wood pairs into a couple
tise and tenon joints to connect, which come from chinese’s Sunmao structre. It could the wood pieces stable and felxible during the useage, also, give us a chance to adjust each installation’s starting angles sligtly during the show.
structure. • Fix M2 screw servo’s cross on wood component. • Use 1.5mm drill bits prescrew holes on pairs. • Use M2 screw fix servo with motor house. • Fix motor house on arclic strcture with M3.5 wood screw.
Driving Cog & Driven Cog • M4 screws and bolts were use to fix sperate cogs and arclic pannel. • Fix the upper part on structure with M12 screwed bar and bolts,
Table-stand Structure • Screwed M12 steel is used to fix at the shafr position with bolt. • M6 screwed steel was cutted in B-made to keep a fixed distance between two arlic pannel.
* Click the picture above, play the video of assembling processs .
Fusion Drawing 1
2
3
4
5
6
7
8
9
10
11
Back View 1:5
Front View 1:5 A
12
Isometric Exploded View 1:2
A
231.86
Cover *2 Clear acrylic plate(3mm)
44.42
Quarter of driven cog *6 plywood plate (3mm)
B
231.64
81.17
B
44.42
544.05
Ø34.04
Shade *6 Clear acrylic plate(3mm)
C
C
Right View 1:5 Wsher(medium) Clear acrylic plate(3mm)
Top View 1:5
Base plywood plate (3mm), glue connected
356.08
Top plywood plate (3mm) Cross plywood plate (3mm)
D
54
D
Ø34.04 Ø44.42
Driving cog (with stucture) plywood plate (3mm) Washer(big) Clear acrylic plate(3mm)
231.64
Driving cog(without structure) plywood plate (3mm)
E
E
Installation Accessories List
Isometric View 1:5
F
G
Quarter of cover *4 Clear acrylic plate(3mm) Dept.
Bartlett
Item Big Washer
Qty 8
Material 3mm Clear Arcylic
Middle Washer Wood Pair (for Motor House)
4
3mm Clear Arcylic
10
3mm Plywood Plate
M6 Wing Nut
8
Steel
M6*25mm CountersunkSocket M6 Nut
8 16
Steel Steel
M4*30mm Countersunk Socket
16
Steel
M4*12mm Countersunk Socket
16
Steel
M4 Nut
32
Steel
M6 Screwed Bar*90mm
4
Steel
M12 Screwed Bar with Bolt*90mm
1
Steel
Technical reference
n/a
Created by
Qianhua Fu Document type
Approved by
Document status
1
2
3
4
Issued for Information
Title
Table-stand structure Clear acrylic plate(3mm)
DWG No.
CANON Final Prototype
5
6
7
8
9
10
G
26/03/2019 n/a
Assembly Instructions
H
F
H
01 Rev.
11
Date of issue
Mar 2019
Sheet
12
1/1
* Click the picture above, play this animation . * Fusion file could be downloaded from: https://a360.co/2Op2eYJ
Final Prototype
* Click this page, visualise the Canon melody.
Final Prototype on Project Fair
* Click the picture above, play this video .
Final Prototype on Project Fair
CANON Design Portfolio by Qianhua Fu