GMU:Speculative Atmospheres/Junting Liu: Difference between revisions

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A little experiment with Arduino + Processing:
'''04/05 A little experiment with Arduino + Processing:'''
 
Control the size of circles and rectangles in processing through LDR to produce free graphics.
Control the size of circles and rectangles in processing through LDR to produce free graphics.
[[File:1.png]]
 
[[File:2.png]]
[[File:Junting_01.png]]
[[Media:Junting_LDRprocessing.pde]]
[[File:Junting_02.jpeg]]
 
'''11/05 Perception experience in the park'''
 
Video Link: [https://youtu.be/tcrSdTzNRvo]
 
I took videos of the airflow, the water flow. For example, the wind blowing the leaves making it sway slightly there.
The feeling is very subtle, I don't know how to describe it accurately, but I think the whole atmosphere of the park is very harmonious, including the sounds, the people, the sunlight, the plants, the birds, etc. Especially the sound of the water flow made me feel comfortable and relaxed.
I'm going to focus more on the aspect like how to use sensors to catch dynamic data from nature and then converting them into another artistic form.
 
'''18/05 Analog sound sensor'''
 
Video Link: [https://youtu.be/jtG9EScXDzM]
 
'''25/05 - 13/07 Project Development'''
 
1. Concept:
Sense the wind
 
My idea is to use a structure similar to a tumbler. The bottom is a solid hemisphere with a board on top, and the sensor is placed on it. When the wind blows, the device will tilt. So I can collect the wind data through sensor.
 
[[File:Junting_Concept.jpg]]
 
2. Components:
 
Arduino Uno; accelerometer- gyroscope GY-521; buzzer
 
GY-521:
The GY-521 module is a breakout board for the MPU-6050 MEMS (Microelectromechanical systems) that features a 3-axis gyroscope, a 3-axis accelerometer, a digital motion processor (DMP), and a temperature sensor. 
 
[[File:GY-521_Junting.jpg]]
 
3.Model Making
 
1) Model01: plastic hemisphere + cardboard
 
[[File:Model01_Junting.jpg]]
 
2) Model02: casting powder (failed because the material was too heavy)
 
[[File:Model02_Junting.jpg]]
 
3) Model01+arduino
 
[[File:Model01+Arduino_01_Junting.jpg]]
[[File:Model01+Arduino_02_Junting.jpg]]
 
 
'''From here, I started to write and test the arduino code while testing the new model structure. I wanted to find a structure that was stable and more easily driven by the wind.'''
 
 
4) Model03
 
[[File:Model03_Junting.jpg]]
 
5) Model04
 
[[File:Model04_Junting.jpg]]
 
6) Model05 (Final Model)
 
[[File:Model05_01_Junting.jpg]]
[[File:Model05_02_Junting.jpg]]
[[File:Model05_03_Junting.jpg]]
 
 
'''Video Presentation (including arduino code testing process):'''
Link: [https://youtu.be/KvBQ2A-8oCo]
 
 
'''17/07 The Sum'''
 
[[File:TheSum_01_Junting.jpg]]
[[File:TheSum_02_Junting.jpg]]
[[File:TheSum_03_Junting.jpg]]
 
Project Description:
 
"Hear The Wind"
 
This device can generate sound through the wind. The wind is like a musician playing music, and you can feel the wind by hearing this special electronic sound.

Latest revision as of 16:29, 19 July 2021

04/05 A little experiment with Arduino + Processing:

Control the size of circles and rectangles in processing through LDR to produce free graphics.

Junting 01.png Junting 02.jpeg

11/05 Perception experience in the park

Video Link: [1]

I took videos of the airflow, the water flow. For example, the wind blowing the leaves making it sway slightly there. The feeling is very subtle, I don't know how to describe it accurately, but I think the whole atmosphere of the park is very harmonious, including the sounds, the people, the sunlight, the plants, the birds, etc. Especially the sound of the water flow made me feel comfortable and relaxed. I'm going to focus more on the aspect like how to use sensors to catch dynamic data from nature and then converting them into another artistic form.

18/05 Analog sound sensor

Video Link: [2]

25/05 - 13/07 Project Development

1. Concept: Sense the wind

My idea is to use a structure similar to a tumbler. The bottom is a solid hemisphere with a board on top, and the sensor is placed on it. When the wind blows, the device will tilt. So I can collect the wind data through sensor.

Junting Concept.jpg

2. Components:

Arduino Uno; accelerometer- gyroscope GY-521; buzzer

GY-521: The GY-521 module is a breakout board for the MPU-6050 MEMS (Microelectromechanical systems) that features a 3-axis gyroscope, a 3-axis accelerometer, a digital motion processor (DMP), and a temperature sensor. 

GY-521 Junting.jpg

3.Model Making

1) Model01: plastic hemisphere + cardboard

Model01 Junting.jpg

2) Model02: casting powder (failed because the material was too heavy)

Model02 Junting.jpg

3) Model01+arduino

Model01+Arduino 01 Junting.jpg Model01+Arduino 02 Junting.jpg


From here, I started to write and test the arduino code while testing the new model structure. I wanted to find a structure that was stable and more easily driven by the wind.


4) Model03

Model03 Junting.jpg

5) Model04

Model04 Junting.jpg

6) Model05 (Final Model)

Model05 01 Junting.jpg Model05 02 Junting.jpg Model05 03 Junting.jpg


Video Presentation (including arduino code testing process): Link: [3]


17/07 The Sum

TheSum 01 Junting.jpg TheSum 02 Junting.jpg TheSum 03 Junting.jpg

Project Description:

"Hear The Wind"

This device can generate sound through the wind. The wind is like a musician playing music, and you can feel the wind by hearing this special electronic sound.