GMU:Speculative Atmospheres II/Bo Liu: Difference between revisions

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Bo Liu

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-== '''Project idea'''==
+== '''S◎M◎ REPUBLIC'''==
-The environment we live in is full of different sounds: the noise of cars driving, the sound of birds singing and water flowing in the park, etc.  If these sounds are transformed into graphics, how do they look visually different?
+This project is a system for transforming natural sounds into real time images based on multiple transmitters and single receiver wireless network via NRF24L10 module.
-So in this project, the idealized approach is to catch different kinds of sounds in real time through wireless remote monitoring and sound sensors, and then translate them into graphics that people can ‚read‘.
+[[File:somocover.jpg]]
+== '''Project Idea'''==
+The environment we live in is full of different sounds: the noise of cars driving, birds singing, water running in the park, etc. If these sounds are transformed into graphics, how would they look visually different?
+So in this project, the idealized approach is to catch sounds from nature through wireless remote monitoring system with sound sensors and then turn them into graphics that people can "read".
-== '''Problem to be solved'''==
+In addition, Multiple transmitters are set up in the project from different locations, to convey a concept of union and integration.
-Technical questions: How to show the electronics? Wireless remote monitoring?
-Radio transmitter/receiver for arduino?
-Aesthetic questions: Why "circles"? Different forms for different sounds? How to present images?
+== '''Technical Support'''==
+The realization of this project relies greatly on the application of a wireless remote monitoring system, and in the final presentation part the NRF24L10 module [https://www.electroniclinic.com/nrf24l01-with-arduino-nrf24l01-pinout-and-example-codes/] was chosen, which offers the possibility of wireless long-distance communication.
+[[File:diagramsomo.jpg]]
+== '''Aesthetic Issues'''==
+For the physical part of the product, the multiple wireless Transmitters determine the independence of each module. Packing each transmitter into a single unit, the shape is inspired by the beehive.
+[[File:3dmodel1.jpg|350px]]
+[[File:3dmodel2.jpg|350px]]
+<gallery>
+File:mockup2.JPG|''Mockup-1''
+File:mockup1.JPG|''Mockup-2''
+File:mockup3.JPG|''Mockup-3''
+File:Mockup4.jpg|''Mockup-4''
+File:mockup5.JPG|''Mockup-5''
+File:mockup6.jpg|''Mockup-6''
+</gallery>
+For the part of digital graphic design, due to the mixture of multiple sounds in the natural environment, it is difficult to collect sounds like pure bird chirps and water sounds. The biggest problem is that the sound sensor is not sensitive enough, which causes the collected data to be large or small and not continuous. In order to get relatively stable data, the Potentiometer on the sound sensor was tried to be tuned frequently, the instability of the electricity caused the sound sensor to be burnt.
+The final image presented is trying to convey a natural concept of landscape painting. Inspired by the works of famous painters, the new images are recomposed by generalizing the basic elements. Different locations represent different shapes. The imperfect data also reflects the "disorder" and "randomness" of the natural environment.
+<gallery>
+File:nrfmap.jpg|''Range Test Map''
+File:inspirationsomo.jpg|''Inspiration''
+File:nrft2.jpg|''Pattern-1''
+File:nrft1.jpg|''Pattern-2''
+File:nrft6.jpg|''Pattern-3''
+File:nrft3.jpg|''Pattern-4''
+File:nrft4.jpg|''Pattern-5''
+File:nrft5.jpg|''Pattern-6''
+</gallery>
+{{#ev:youtube|scNt3UTvDc4}}
 == '''Experiments'''==
@@ Line 27: / Line 63: @@
 One sound sample is the bird song I recorded this summer in the woods below my student apartment. The other sound mimic are real-time car noises recorded from the balcony. Here are the patterns generated by those interesting moments. ''Video links :::'' [https://www.youtube.com/watch?v=erGPgZmhsDU] [https://www.youtube.com/watch?v=trOPudu6Rj0] [https://www.youtube.com/watch?v=8eL3xvUyWqI] [https://www.youtube.com/watch?v=AZnhLL9TmHU]
 <gallery>
-File:SA_T03.jpg|''SA_T03''
+File:SA_T03.jpg|''cico01''
-File:SA_T04.jpg|''SA_T04''
+File:SA_T04.jpg|''cico02''
-File:SA_T05.jpg|''SA_T05''
+File:SA_T05.jpg|''cico03''
 </gallery>
 <gallery>
-File:SA_T06.jpg|''SA_T06''
+File:SA_T06.jpg|''cico04''
-File:SA_T07.jpg|''SA_T07''
+File:SA_T07.jpg|''cico05''
-File:SA_T08.jpg|''SA_T08''
+File:SA_T08.jpg|''cico06''
 </gallery>
 {{#ev:youtube|lTj__kYl90I}}
@@ Line 46: / Line 82: @@
 A small experiment: think of nature where sunlight is projected onto plants to create shadows, which move to create a changing value, and finally generate a screen image.
 <gallery>
-File:SA_T01.JPG|''SA_T01''
+File:SA_T01.JPG|''DoT01''
-File:SA_T02.jpg|''SA_T02''
+File:SA_T02.jpg|''DoT02''
 </gallery>
 {{#ev:youtube|ZMBYmFUPpLM}}
 {{#ev:youtube|5gBoE3Z_P5Y}}
+== '''References'''==
+[1] NRF24L10 Module Connection https://www.electroniclinic.com/nrf24l01-with-arduino-nrf24l01-pinout-and-example-codes/
+[2] HC-12 Module Connection https://electronoobs.com/eng_arduino_tut96.php
+[7] Project Arduino Code [[File:arduinocode2.pdf]]
+[8] Project Processing Code [[File:processingcode1.pdf]]
+[9] NRF24L10 Module Range Test https://www.youtube.com/watch?v=pd0VYc2qUtw