GMU:Speculative Atmospheres II/Sophia Amelia Eickhoff: Difference between revisions

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'''''Mapping of the Invisible Enviorment'''''
'''MAPPING OF THE INVISIBLE ENVIORMENT'''


''Idea''
'''Idea'''


For my project I want to collect the invisible elements (data) that shape the natural atmosphere on my walks and visualize them artistically.  
For my project I want to collect the invisible elements (data) that shape the natural atmosphere on my walks and visualize them artistically. An alternative map is created, which is not used for orientation. It is a reproduction of  brief moments that will most likely not come up again in this way.  


On the route, light, air quality, temperature and pulse are measured every minute using an Arduino and sensors. These are stored via an SD card and read out with a code.  
 
 
On the route, light, air quality, temperature and the walkers pulse are measured every minute using an Arduino and sensors. These are stored via an SD card and read out with a code.  
The time and route are stored using a tracking app.The data determines the parameters of the subsequent image design.  
The time and route are stored using a tracking app.The data determines the parameters of the subsequent image design.  
For transport, a "rack" is built that attaches the breadboard to the body.
For transport, a "rack" is built that attaches the breadboard to the body.
After each walk the collected Data will be read out and acryl painted onto a cardboardcanvas. For the background an abstracted version of the seen enviorment is painted.
After each walk the collected data will be transscripted  and painted with onto a map that shows the walked area. In order to associate the data to the correct point of the line the pace througout the walk has to be steady.  


*Time/Duration= Size of the canvas
*Time/Duration= Size of the canvas
*Route= Shape of the line
*Route= Shape of the line
*Temperature= Color
*Temperature= Color of the line
*Light= Saturation of the color
*Air quality= Saturation of the color
*Air quality= contour of the line
*Pulse= Thickness of the line  
*Pulse= Height of the line  
*Light= Shadow of the line
*Time of the day= Shift direction of shadow




'''Progress/Work'''


''Code''


  #include <SPI.h> //including SDcard
  #include <SD.h>
  #include <math.h> //including for temperature calculation


  File myFile; //directing data to file


  void setup() {


  Serial.begin(9600); //starting comunication with arduino
  while (!Serial) {
  ;
  }
  Serial.print("Initializing SD card..."); //initializing the SD card
  if (!SD.begin(10)) {
  Serial.println("initialization failed!"); // signal if connection failed


  while (1);
  }
  Serial.println("initialization done."); // signal if connection succeded
  myFile = SD.open("Spaziergang.txt", FILE_WRITE); //naming file
 
  if (myFile) {
  Serial.print("Writing to Spaziergang.txt...");
  myFile.println ("Spaziergang"); //naming the section of the file, date, place, number of walk
  myFile.close();
  Serial.println("done.");


''Code''
  }
  else {
  // if the file didn't open, print an error:
  Serial.println("error opening Spaziergang.txt"); //signal if opening failed
    }
  }
  void loop() {
 
  //if the communication started successfully- 
  myFile = SD.open("Spaziergang.txt", FILE_WRITE);
  if (myFile) {
  //collect incoming data from sensors


#include <SPI.h> //including SDcard
   //light
  #include <SD.h>
  Serial.print("Writing to Spaziergang.txt...");
   #include <math.h> //including for temperature calculation
  int light = analogRead(A0);
  File myFile; //directing data to file
  myFile.print( "Licht: ");  
void setup() {
Serial.begin(9600); //starting comunication with arduino
while (!Serial) {
;
}
Serial.print("Initializing SD card..."); //initializing the SD card
if (!SD.begin(10)) {
Serial.println("initialization failed!"); // signal if connection failed
while (1);
}
Serial.println("initialization done."); // signal if connection succeded
myFile = SD.open("test.txt", FILE_WRITE); //naming file
if (myFile) {
Serial.print("Writing to test.txt...");
myFile.println ("Spaziergang"); //naming the section of the file, date, place, number of walk
myFile.close();
Serial.println("done.");
}
else {
// if the file didn't open, print an error:
Serial.println("error opening test.txt"); //signal if opening failed
  }
}
void loop() {
 
//if the communication started successfully- 
myFile = SD.open("test.txt", FILE_WRITE);
if (myFile) {
//collect incoming data from sensors
//light
Serial.print("Writing to test.txt...");
int light = analogRead(A0);
myFile.print( "Licht: ");  
   myFile.println(light);
   myFile.println(light);
//temperature
 
  //temperature
   myFile.print ("Temperatur: ");
   myFile.print ("Temperatur: ");
   double temp=analogRead(A1);
   double temp=analogRead(A1);
Line 73: Line 79:
   double r=(5-fenya)/fenya*4700;
   double r=(5-fenya)/fenya*4700;
   myFile.println( 1/(  log(r/10000) /3950 + 1/(25+273.15))-273.15);
   myFile.println( 1/(  log(r/10000) /3950 + 1/(25+273.15))-273.15);
 
   // airquality
   // airquality
   int gas = analogRead(A3);
   int gas = analogRead(A3);
   myFile.print( "Gas: ");
   myFile.print( "Gas: ");
   myFile.println(gas, DEC);
   myFile.println(gas, DEC);
//pulse
 
  //pulse
   int pulse = analogRead(A2);
   int pulse = analogRead(A2);
   myFile.print( "Pulse: ");
   myFile.print( "Pulse: ");
   myFile.println(pulse);
   myFile.println(pulse);
delay(60000); //collect data every minute
 
// close the file:
  delay(60000); //collect data every minute
 
  // close the file:
   myFile.close();
   myFile.close();
   Serial.println("Sensor.geschrieben.");
   Serial.println("Sensor.geschrieben.");
}
 
  }
   else {
   else {
// if the file didn't open, print an error:
  // if the file didn't open, print an error:
   Serial.println("error opening test.txt");
   Serial.println("error opening Spaziergang.txt");
}
  }
}
  }
 


''Breadboard''
''Breadboard''




''Additional''
[[File:PulseSensor.jpeg|200px]][[File:AirqualitySensor.jpeg|200px]][[File:LightSensor.jpeg|200px]][[File:TemperatureSensor.jpeg|200px]][[File:SdCardModule.jpeg|200px]][[File:BreadBoard.jpeg|200px]]
[[File:PulsAttached.jpeg|200px]][[File:AdditionalEquipment.jpeg|200px]]
 
''Rack / Helmet''
 
[[File:Foto 03.02.22, 17 51 37.jpg|300px]][[File:Foto 03.02.22, 17 55 28.jpg|410px]]
 
''Data Arduino / SD-Card''
 
[[File:Screenshot (61).png|200px]]
 
The first minute is not taken into account as the gas sensor needs about 30 seconds to be ready. In the meantime, the helmet is also put on and the route tracking is started.
Delete collected data from SD-Card to seperate new from old. Copy-Paste into word sheet to make it easier to read and work with.
 
 
 
 
 
''Data Phone''
 
In order to track the route the app "Runkeeper" is used.
To keep a steady pace a recorded metronome on Spotify is beeing played via headphones. Additionally the data for the average step-length from the "Health-App" is taken into calculation.
 
https://open.spotify.com/episode/23OEM2pZZi48sWNPpCKako?si=a112c55f61694699
 
[[File:Steplength.jpeg|200px]]
 
 
'''Guide'''
 
 
''Determinations''
 
*Never stop walking -j ust walk in a different direction
*Always take 100 steps a minute and take care that they are the same length
*Return to startingpoint
*Don´t walk on Mondays - Corona Demonstrations
*Don´t walk in storms
*Remember that time determines size - maps are maybe not available
 
 
''Sequence''
 
 
[[File:guidesheet1.jpg|500px]]
 
 
 
''Transscription Diagram''
 
[[File:Transscription Diagramm pulse 2.jpg|400px]] Color and Gas
 
[[File:ColorTransscriptionDiagram.png|400px]] Pulse
 
[[File:shadowtransscription.jpg|400px]] Shadow
 
 
'''In Practice'''
 
''Walking''
 
(At the end of the video I included a clip of two police officers beeing filmed for some kind of a TV-Show. Because of this I had to stop walking and restart at another place.)
 
{{#ev:vimeo|674919770}}
 
''At home''
 
[[File:SetupForTranslation.jpeg|300px]][[File:TranslationWork.jpeg|300px]][[File:coloradjusting.jpeg|300px]][[File:painttttt.jpeg|300px]]
 
 
'''Visualition'''
 
 
 
Walk 1 : Weimar City Center, 22.01.2022, 18:35, 36min, 3KM, 100 Steps a Minute
 
[[File:Route1.jpeg|800px]]
[[File:WalkOne.png|300px]]
[[:File:Spaziergang 22.01.2022 Weimar Innenstadt.pdf]]
 
 
 
Walk 2 : Weimar Ilmpark, 25.01.2022, 14:48, 57min, 4,8KM, 100Steps a Minute
 
[[File:Route2.jpeg|800px]]
[[File:WalkTwo.png|300px]]
[[:File:Spaziergang 25.01.2022 Weimar Ilmpark.pdf]]
 
 
Walk 3 : Weimar West, 01.02.2022,12:12, 65min, 6KM, 100 Steps a Minute
 
[[File:Route3.jpeg|800px]]
[[File:WalkThree.png|300px]]
[[:File:Spaziergang 01.02.2022 Weimar West.pdf]]
 
 
Walk 4 : Weimar Kirschbachtal, 17:32, 33min, 2,83KM, 100 Steps a Minute
 
[[File:Route4.jpeg|800px]]
[[File:WalkFour.png|300px]]
[[:File:PDF Spaziergang 02.02.2022 Weimar Kirschbachtal.pdf]]
 
 
 
'''Reflecting'''
 
What I had to realise again and again in the editing time is that I am not a computer. My eye cannot determine colour as accurately as a computer and my hand is too shaky to keep perfect control over the brush. I also had to keep recalculating everything to make sure it was right. I make a lot of mistakes in editing that can't be undone.
I also had to stop many walks or couldn't make use of them because a connection didn't work properly, the weather didn't cooperate or instead of being able to continue, I suddenly found myself standing in someone's garden.
 
The helmet has caused quite a stir in public. Because of the conspicuousness, I was often held up and could not go for a walk peacefully, which is an essential part of a walk. People also looked at me with uncertainty (sometimes even with disgust or fear) because they couldn't judge what exactly my mission was.  That's why I avoided crowded or indoor spaces.
 
Also, for the type of visualisation (the route line), the input of data, i.e. the change of the line, is too much. 3 sensors would have been enough. The second line seems rather confusing. The effect that space is suggested by a "shadow" is missing.
 
 
 
 
'''Future'''
 
I will have to get out of my comfort zone and teach myself how to deal with new media. Overcoming this and learning anew will probably be exhausting at first, but the gain is worth it. It will cost me time at first, but in the long run, it will save me a lot of time. The creative possibilities are more varied and fit better when working with precise data.


The place and the area of the walked route are indicated. Depending on what dominates the walk, a text (internal state) or a photo (external state) is attached. Also, an attempt is made to put this state in context with the collected data.  
I would like to keep the concept of visualising my walks in the future. However, I would like to design the presentation digitally (Processing/Unity) and work with live data. Additionally, the background or surrounding space will be defined by sensor values, not only the route.
Which sensors and which parameters I will use for the visualisation will remain flexible.


I am at odds with myself as to whether I want to keep the anit-aesthetic of the helmet or create a more inconspicuous, unprovocative design.


''Keywords''
 
 
'''Thoughts while working'''
 
. ''Keywords/Inspiration''


*Determination-Indetermination
*Determination-Indetermination


*History of Mapping
**Thoughts by Nam June Paik
 
 
*What is the information shown in commercial maps and to what extent can they be political?
 
 
*History of Mapping-Alternative/Artistic mapping
 
**https://de.wikipedia.org/wiki/Kartografie
**https://th.bing.com/th/id/OIP.B8hqhKchjCfEgoO9OZtZTQHaHa?pid=ImgDet&rs=1
**https://www.pinterest.de/pin/430586414367848528/
**https://mir-s3-cdn-cf.behance.net/project_modules/max_1200/17a04e56210215.59a5472bbe6f6.jpg
**https://www.zoochat.com/community/media/my-ideal-london-zoo-map-2018.415505/full?d=1537206722


*Strollology
*Strollology


*Correlation of Data
**https://vimeo.com/96979458?embedded=true&source=video_title&owner=16179567
**http://www.spaziergangswissenschaft.de/
 
 
*Correlation -Interpretation of Data
 
**https://lastminuteengineers.com/mq2-gas-senser-arduino-tutorial/
 


*Context/ Asssociation of Color
*Context/ Asssociation of Color


*(Gerhard Richter)


*Work of Tobias Zimmer - Identical Walk
**https://www.tobiaszimmer.net/projects/identical-walk.php
''Sketches''
[[File:Linearroute.png|200px]] [[File:Anhang 1 (2).jpeg|200px]][[File:razm.jpeg|200px]][[File:rotgelbrauml.jpeg|200px]][[File:Hintergrund.png|200px]][[File:Sketcch.jpeg|200px]][[File:Sketccch.jpeg|200px]][[File:3dcollage.jpeg|200px]][[File:Route33.jpeg|100px]]
'''discarded ideas'''
*The place and the area of the walked route are indicated. Depending on what dominates the walk, a text (internal state) or a photo (external state) is attached. Also, an attempt is made to put this state in context with the collected data
(I decided against it because the focus would be shifted away from visualising the data of the walk.)


*Photo/Gerhard Richter for background
**https://www.galerie-leidel.de/bild/fuji
(I decided against it because i preferred to work with the association of maps.)


''Experimenting/sketching/collection of how to visualize''
*Humitdity Sensor
(I decided against it because the data input would have been to much)


[[File:Screenshot (48).png|400px]]
*Distance Sensor
[[File:Linearroute.png|400px]] [[File:Anhang 1 (2).jpeg|400px]][[File:razm.jpeg|400px]]
(I decided against it because the distance to surroung objects would have probably not been visible. The pulse / thickness of the line would have coverd it)
[[File:rotgelbrauml.jpeg|400px]]
[[File:Hintergrund.png|400px]]

Latest revision as of 00:48, 9 February 2022


MAPPING OF THE INVISIBLE ENVIORMENT

Idea

For my project I want to collect the invisible elements (data) that shape the natural atmosphere on my walks and visualize them artistically. An alternative map is created, which is not used for orientation. It is a reproduction of brief moments that will most likely not come up again in this way.


On the route, light, air quality, temperature and the walkers pulse are measured every minute using an Arduino and sensors. These are stored via an SD card and read out with a code. The time and route are stored using a tracking app.The data determines the parameters of the subsequent image design. For transport, a "rack" is built that attaches the breadboard to the body. After each walk the collected data will be transscripted and painted with onto a map that shows the walked area. In order to associate the data to the correct point of the line the pace througout the walk has to be steady.

  • Time/Duration= Size of the canvas
  • Route= Shape of the line
  • Temperature= Color of the line
  • Air quality= Saturation of the color
  • Pulse= Thickness of the line
  • Light= Shadow of the line
  • Time of the day= Shift direction of shadow


Progress/Work

Code

 #include <SPI.h> //including SDcard
 #include <SD.h>
 #include <math.h> //including for temperature calculation
 File myFile; //directing data to file
 void setup() {
 Serial.begin(9600); //starting comunication with arduino
 while (!Serial) {
 ; 
 }
 Serial.print("Initializing SD card..."); //initializing the SD card
 if (!SD.begin(10)) {
 Serial.println("initialization failed!"); // signal if connection failed
 while (1);
 }
 Serial.println("initialization done."); // signal if connection succeded
 myFile = SD.open("Spaziergang.txt", FILE_WRITE); //naming file
 
  if (myFile) {
 Serial.print("Writing to Spaziergang.txt...");
 myFile.println ("Spaziergang"); //naming the section of the file, date, place, number of walk
 myFile.close();
 Serial.println("done.");
 }
 else {
 // if the file didn't open, print an error:
  Serial.println("error opening Spaziergang.txt"); //signal if opening failed
   }
  }
 void loop() {
 
 //if the communication started successfully-  
 myFile = SD.open("Spaziergang.txt", FILE_WRITE);
 if (myFile) {
 //collect incoming data from sensors
 //light
Serial.print("Writing to Spaziergang.txt...");
int light = analogRead(A0);
 myFile.print( "Licht: "); 
 myFile.println(light);
 //temperature
 myFile.print ("Temperatur: ");
 double temp=analogRead(A1);
 double fenya=(temp/1023)*5;
 double r=(5-fenya)/fenya*4700;
 myFile.println( 1/(  log(r/10000) /3950 + 1/(25+273.15))-273.15);
 
 // airquality
 int gas = analogRead(A3);
 myFile.print( "Gas: ");
 myFile.println(gas, DEC);
 //pulse
 int pulse = analogRead(A2);
 myFile.print( "Pulse: ");
 myFile.println(pulse);
 delay(60000); //collect data every minute
 // close the file:
 myFile.close();
 Serial.println("Sensor.geschrieben.");
 }
  else {
 // if the file didn't open, print an error:
 Serial.println("error opening Spaziergang.txt");
 }
 }


Breadboard


PulseSensor.jpegAirqualitySensor.jpegLightSensor.jpegTemperatureSensor.jpegSdCardModule.jpegBreadBoard.jpeg PulsAttached.jpegAdditionalEquipment.jpeg

Rack / Helmet

Foto 03.02.22, 17 51 37.jpgFoto 03.02.22, 17 55 28.jpg

Data Arduino / SD-Card

Screenshot (61).png

The first minute is not taken into account as the gas sensor needs about 30 seconds to be ready. In the meantime, the helmet is also put on and the route tracking is started. Delete collected data from SD-Card to seperate new from old. Copy-Paste into word sheet to make it easier to read and work with.



Data Phone

In order to track the route the app "Runkeeper" is used. To keep a steady pace a recorded metronome on Spotify is beeing played via headphones. Additionally the data for the average step-length from the "Health-App" is taken into calculation.

https://open.spotify.com/episode/23OEM2pZZi48sWNPpCKako?si=a112c55f61694699

Steplength.jpeg


Guide


Determinations

  • Never stop walking -j ust walk in a different direction
  • Always take 100 steps a minute and take care that they are the same length
  • Return to startingpoint
  • Don´t walk on Mondays - Corona Demonstrations
  • Don´t walk in storms
  • Remember that time determines size - maps are maybe not available


Sequence


Guidesheet1.jpg


Transscription Diagram

Transscription Diagramm pulse 2.jpg Color and Gas

ColorTransscriptionDiagram.png Pulse

Shadowtransscription.jpg Shadow


In Practice

Walking

(At the end of the video I included a clip of two police officers beeing filmed for some kind of a TV-Show. Because of this I had to stop walking and restart at another place.)

At home

SetupForTranslation.jpegTranslationWork.jpegColoradjusting.jpegPainttttt.jpeg


Visualition


Walk 1 : Weimar City Center, 22.01.2022, 18:35, 36min, 3KM, 100 Steps a Minute

Route1.jpeg WalkOne.png File:Spaziergang 22.01.2022 Weimar Innenstadt.pdf


Walk 2 : Weimar Ilmpark, 25.01.2022, 14:48, 57min, 4,8KM, 100Steps a Minute

Route2.jpeg WalkTwo.png File:Spaziergang 25.01.2022 Weimar Ilmpark.pdf


Walk 3 : Weimar West, 01.02.2022,12:12, 65min, 6KM, 100 Steps a Minute

Route3.jpeg WalkThree.png File:Spaziergang 01.02.2022 Weimar West.pdf


Walk 4 : Weimar Kirschbachtal, 17:32, 33min, 2,83KM, 100 Steps a Minute

Route4.jpeg WalkFour.png File:PDF Spaziergang 02.02.2022 Weimar Kirschbachtal.pdf


Reflecting

What I had to realise again and again in the editing time is that I am not a computer. My eye cannot determine colour as accurately as a computer and my hand is too shaky to keep perfect control over the brush. I also had to keep recalculating everything to make sure it was right. I make a lot of mistakes in editing that can't be undone.

I also had to stop many walks or couldn't make use of them because a connection didn't work properly, the weather didn't cooperate or instead of being able to continue, I suddenly found myself standing in someone's garden.

The helmet has caused quite a stir in public. Because of the conspicuousness, I was often held up and could not go for a walk peacefully, which is an essential part of a walk. People also looked at me with uncertainty (sometimes even with disgust or fear) because they couldn't judge what exactly my mission was. That's why I avoided crowded or indoor spaces.

Also, for the type of visualisation (the route line), the input of data, i.e. the change of the line, is too much. 3 sensors would have been enough. The second line seems rather confusing. The effect that space is suggested by a "shadow" is missing.



Future

I will have to get out of my comfort zone and teach myself how to deal with new media. Overcoming this and learning anew will probably be exhausting at first, but the gain is worth it. It will cost me time at first, but in the long run, it will save me a lot of time. The creative possibilities are more varied and fit better when working with precise data.

I would like to keep the concept of visualising my walks in the future. However, I would like to design the presentation digitally (Processing/Unity) and work with live data. Additionally, the background or surrounding space will be defined by sensor values, not only the route. Which sensors and which parameters I will use for the visualisation will remain flexible.

I am at odds with myself as to whether I want to keep the anit-aesthetic of the helmet or create a more inconspicuous, unprovocative design.


Thoughts while working

. Keywords/Inspiration

  • Determination-Indetermination
    • Thoughts by Nam June Paik


  • What is the information shown in commercial maps and to what extent can they be political?


  • History of Mapping-Alternative/Artistic mapping
  • Strollology


  • Correlation -Interpretation of Data


  • Context/ Asssociation of Color




Sketches


Linearroute.png Anhang 1 (2).jpegRazm.jpegRotgelbrauml.jpegHintergrund.pngSketcch.jpegSketccch.jpeg3dcollage.jpegRoute33.jpeg


discarded ideas

  • The place and the area of the walked route are indicated. Depending on what dominates the walk, a text (internal state) or a photo (external state) is attached. Also, an attempt is made to put this state in context with the collected data

(I decided against it because the focus would be shifted away from visualising the data of the walk.)

(I decided against it because i preferred to work with the association of maps.)

  • Humitdity Sensor

(I decided against it because the data input would have been to much)

  • Distance Sensor

(I decided against it because the distance to surroung objects would have probably not been visible. The pulse / thickness of the line would have coverd it)