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| sunification [2019/03/28 13:14] – givanbela | sunification [2019/04/01 15:22] (current) – givanbela |
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| For the moment we are looking into building a cheap and accurate mobile/portable device, and start working with data acquisition. This is the necessary technical part. | For the moment we are looking into building a cheap and accurate mobile/portable device, and start working with data acquisition. This is the necessary technical part. |
| | |
| | References, instructables: |
| | * https://learn.adafruit.com/adafruit-si1145-breakout-board-uv-ir-visible-sensor/overview |
| | * https://petermolnar.net/raspberry-pi-bme280-si1145-collectd-mosquitto/ |
| | * next to uv+ir+visiblelight+hum+baro+temp add particles analyzer and co2 |
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| In a second section the historical and contemporary cultural-artistic references will be commented. | In a second section the historical and contemporary cultural-artistic references will be commented. |
| * Geza Roman Bopp (artist, musicologist, musician, artisan, radiomaker) | * Geza Roman Bopp (artist, musicologist, musician, artisan, radiomaker) |
| * Joren Six (programming and electronic engineer, database expert, experimental scientific device builder) | * Joren Six (programming and electronic engineer, database expert, experimental scientific device builder) |
| | * Gívan Belá (coordination, development, aesthetics, installation and documentation) |
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| current support | current support |
| * technically antarctica is a desert, very dry! | * technically antarctica is a desert, very dry! |
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| IDEA DEVELOPMENT in 7 chapters | ==== Idea development in 7 chapters ==== |
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| - scientist technicians artist content exchange meetings interviews cultural references -- start with raymond roussel 'locus solus' and a quote... | - scientist technicians artist content exchange meetings interviews cultural references -- start with raymond roussel 'locus solus' and a quote... |
| - spatiality sound: either ambisonics, on each level 8 speakers, bottom floor 4x subs, but that is so classic\\ so better: fm transmitted into headphones, radioreceivers, phones, internet... \\ spatially defined according to the place of the visitor in the building\\ areas of sending and receiving sound with Tetsuo Kogawa's FM transmitters | - spatiality sound: either ambisonics, on each level 8 speakers, bottom floor 4x subs, but that is so classic\\ so better: fm transmitted into headphones, radioreceivers, phones, internet... \\ spatially defined according to the place of the visitor in the building\\ areas of sending and receiving sound with Tetsuo Kogawa's FM transmitters |
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| ==== STARTING METHOD 2019 ==== | ==== method for 2019 ==== |
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| monthly meetings with specific subthemes, inviting each time another expert \\ | monthly meetings with specific subthemes, inviting each time another expert \\ |
| monthly work sessions, inviting experts with necessary technical skills \\ | monthly work sessions, inviting experts with necessary technical skills \\ |
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| ==== measurements ==== | {{ :sunification:20190208_113049.jpg?200 |}} |
| | {{ :sunification:20190208_111844.jpg?200 |}} |
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| | ==== Measurements ==== |
| |
| * Pyranometer: for measurement of global solar radiation | * Pyranometer: for measurement of global solar radiation |
| * Net radiometer: for measurement of radiation balance | * Net radiometer: for measurement of radiation balance |
| |
| pyranometers | ==== Pyranometers ==== |
| | |
| | The oldest principle seems to be measuring the temperature of a white and black ring in the sunlight. But nowadays there seem to be a lot of materials and designs for experimenting and making DIY measure tools. |
| * https://www.kippzonen.com/Product/13/CMP11-Pyranometer \\ used in https://www.researchgate.net/publication/318040880_Raspberry_Pi_Based_Real_Time_Data_Acquisition_Node_for_Environmental_Data_Collection | * https://www.kippzonen.com/Product/13/CMP11-Pyranometer \\ used in https://www.researchgate.net/publication/318040880_Raspberry_Pi_Based_Real_Time_Data_Acquisition_Node_for_Environmental_Data_Collection |
| * https://www.apogeeinstruments.com/su-100-ss-uv-sensor/ \\ used in https://www.14core.com/working-on-pyranometer-with-apogee-su-100-si1145-radiation-sensor/ \\ also see: https://learn.adafruit.com/adafruit-si1145-breakout-board-uv-ir-visible-sensor/overview \\ or make wearables with the https://www.adafruit.com/product/1981 | * https://www.apogeeinstruments.com/su-100-ss-uv-sensor/ \\ used in https://www.14core.com/working-on-pyranometer-with-apogee-su-100-si1145-radiation-sensor/ \\ also see: https://learn.adafruit.com/adafruit-si1145-breakout-board-uv-ir-visible-sensor/overview \\ or make wearables with the https://www.adafruit.com/product/1981 |
| * https://www.alibaba.com/trade/search?fsb=y&IndexArea=product_en&CatId=&SearchText=pyranometer | * https://www.alibaba.com/trade/search?fsb=y&IndexArea=product_en&CatId=&SearchText=pyranometer |
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| https://www.hackster.io/jeffrey2/measuring-solar-radiation-with-arduino-f741ac | Using an Arduino or Raspberry pi, the following ready to make designs are online available: |
| http://www.instesre.org/construction/pyranometer/pyranometer.htm | |
| https://oceanoptics.com/wp-content/uploads/Fernando-Guerra-Hidalgo-Sensors-Design.pdf | |
| https://www.analogweather.com/-eppley-model-50-pyrheliometer.html | |
| https://ourlittlefield.blogspot.com/2014/08/home-made-pyranometer-or.html (with rpi) | |
| http://eprints.ucm.es/46744/1/TrabajoFinDeMaster.pdf (with rpi) | |
| https://www.richardmudhar.com/blog/2013/03/constructing-a-pyranometer-monitoring-daylight-levels-using-a-photodiode-and-pic/ | |
| |
| TECHNICAL COMPONENTS FOR RPI OR ARDUINO-ALIKES | * https://www.hackster.io/jeffrey2/measuring-solar-radiation-with-arduino-f741ac |
| | * http://www.instesre.org/construction/pyranometer/pyranometer.htm |
| | * https://oceanoptics.com/wp-content/uploads/Fernando-Guerra-Hidalgo-Sensors-Design.pdf |
| | * https://www.analogweather.com/-eppley-model-50-pyrheliometer.html |
| | * https://ourlittlefield.blogspot.com/2014/08/home-made-pyranometer-or.html (with rpi) |
| | * http://eprints.ucm.es/46744/1/TrabajoFinDeMaster.pdf (with rpi) |
| | * https://www.richardmudhar.com/blog/2013/03/constructing-a-pyranometer-monitoring-daylight-levels-using-a-photodiode-and-pic/ |
| |
| Tetsuo Kogawa (FM transmitters) | ==== Other electronic components for extending the sunlight measurements ==== |
| https://anarchy.translocal.jp/radio/micro/howtotx.html | |
| |
| Light to Frequency Converter - TSL235R | === Tetsuo Kogawa (FM transmitters) === |
| https://www.sparkfun.com/products/9768 | |
| https://playground.arduino.cc/Main/TSL235R | |
| https://shop.pimoroni.com/products/light-to-frequency-converter-tsl235r | |
| UV | |
| BH1750GUVA-S12SD | |
| http://arduinolearning.com/code/arduino-bh1750-sensor.php | |
| http://arduinolearning.com/code/arduino-guva-s12sd-uv-sensor.php | |
| sparkfun DEV-15089 UV Light Sensor Breakout sparkfun | |
| sparkfun VEML6075 | |
| https://www.sparkfun.com/products/15089 | |
| https://learn.sparkfun.com/tutorials/qwiic-uv-sensor-veml6075-hookup-guide | |
| https://learn.adafruit.com/adafruit-veml6075-uva-uvb-uv-index-sensor | |
| https://github.com/ControlEverythingCommunity/VEML6070 | |
| LUX TSL-2561 | |
| https://learn.sparkfun.com/tutorials/tsl2561-luminosity-sensor-hookup-guide/all | |
| https://www.adafruit.com/product/439 | |
| https://www.instructables.com/id/Lux-Sensor-TSL2561-Raspberry-Pi/ | |
| AMBIENT LIGHT TEMT-6000 | |
| https://www.sparkfun.com/products/8688 | |
| COLORPAL | |
| https://www.parallax.com/product/28380 | |
| color recognition TCS3200 | |
| https://howtomechatronics.com/tutorials/arduino/arduino-color-sensing-tutorial-tcs230-tcs3200-color-sensor/ | |
| https://www.raspberrypi.org/blog/colour-sensing-raspberry-pi/ | |
| infrared detection | |
| http://forum.arduino.cc/index.php?topic=134089.0 | |
| CO2 sensors | |
| MQ 135 (may be too inaccurate) | |
| http://sandboxelectronics.com/?product=mh-z16-ndir-co2-sensor-with-i2cuart-5v3-3v-interface-for-arduinoraspeberry-pi&gclid=CjwKCAiA8OjjBRB4EiwAMZe6y3DxYm0QQQ5xS7yTbE8hKYpdvKlpHz5E7USG_WEz7jLoTxCSQ3GusRoCwFIQAvD_BwE | |
| https://www.co2meter.com/collections/co2-sensors | |
| ozone sensors | |
| MQ131 Ozone O3 Gas Sensor | |
| 3SP-O3-20 | |
| https://www.spec-sensors.com/product/ozone-sensor/ | |
| dust particles | |
| https://learn.adafruit.com/pm25-air-quality-sensor/arduino-code | |
| https://www.instructables.com/id/Arduino-Powered-Dust-Particles-Monitoring-Station/ | |
| https://www.instructables.com/id/How-to-Interface-With-Optical-Dust-Sensor/ | |
| humidity/temperature | |
| https://learn.adafruit.com/am2315-encased-i2c-temperature-humidity-sensor | |
| BME280 I2C or SPI Temperature Humidity Pressure Sensor | |
| https://www.adafruit.com/product/2652 | |
| more partially interesting things (interesting combination UV gas temp/hum) | |
| https://learn.adafruit.com/adafruit-io-air-quality-monitor | |
| cloud sensor (expensive) | |
| http://diffractionlimited.com/product/portable-cloud-sensor/ | |
| solar operated rpi | |
| https://www.youtube.com/watch?v=YpAYDcW_Jx0 | |
| https://www.youtube.com/watch?v=pOpqQs_u5mU | |
| https://www.youtube.com/watch?v=ZMZCBaCXruA | |
| |
| First test and introduction: | * https://anarchy.translocal.jp/radio/micro/howtotx.html |
| RPI sunlight sensing project | |
| https://www.switchdoc.com/2016/10/simple-iot-sunlight-sensing-raspberry-pi-project-part-1/ | |
| https://shop.switchdoc.com/products/grove-sunlight-ir-uv-i2c-sensor | |
| http://wiki.seeedstudio.com/Grove-Sunlight_Sensor/ | |
| also available on adafruit | |
| https://learn.adafruit.com/adafruit-si1145-breakout-board-uv-ir-visible-sensor/overview | |
| |
| | === Light to Frequency Converter - TSL235R === |
| |
| | * https://www.sparkfun.com/products/9768 |
| | * https://playground.arduino.cc/Main/TSL235R |
| | * https://shop.pimoroni.com/products/light-to-frequency-converter-tsl235r |
| | |
| | === UV === |
| |
| and if we need to add a weather station (wind dir/speed temp hum barometer CO2 particles) expand | BH1750GUVA-S12SD |
| use maybe a peer-to-peer network with arduinos and raspberry pis and a homeserver? | * http://arduinolearning.com/code/arduino-bh1750-sensor.php |
| ask gepeto and dom | * http://arduinolearning.com/code/arduino-guva-s12sd-uv-sensor.php |
| | * sparkfun DEV-15089 UV Light Sensor Breakout sparkfun |
| | sparkfun VEML6075 |
| | * https://www.sparkfun.com/products/15089 |
| | * https://learn.sparkfun.com/tutorials/qwiic-uv-sensor-veml6075-hookup-guide |
| | * https://learn.adafruit.com/adafruit-veml6075-uva-uvb-uv-index-sensor |
| | * https://github.com/ControlEverythingCommunity/VEML6070 |
| | LUX TSL-2561 |
| | * https://learn.sparkfun.com/tutorials/tsl2561-luminosity-sensor-hookup-guide/all |
| | * https://www.adafruit.com/product/439 |
| | * https://www.instructables.com/id/Lux-Sensor-TSL2561-Raspberry-Pi/ |
| | AMBIENT LIGHT TEMT-6000 |
| | * https://www.sparkfun.com/products/8688 |
| |
| future | === Other sensors === |
| | |
| | COLORPAL |
| | * https://www.parallax.com/product/28380 |
| | color recognition TCS3200 |
| | * https://howtomechatronics.com/tutorials/arduino/arduino-color-sensing-tutorial-tcs230-tcs3200-color-sensor/ |
| | * https://www.raspberrypi.org/blog/colour-sensing-raspberry-pi/ |
| | infrared detection |
| | * http://forum.arduino.cc/index.php?topic=134089.0 |
| | CO2 sensors -- MQ 135 (may be too inaccurate) |
| | * http://sandboxelectronics.com/?product=mh-z16-ndir-co2-sensor-with-i2cuart-5v3-3v-interface-for-arduinoraspeberry-pi&gclid=CjwKCAiA8OjjBRB4EiwAMZe6y3DxYm0QQQ5xS7yTbE8hKYpdvKlpHz5E7USG_WEz7jLoTxCSQ3GusRoCwFIQAvD_BwE |
| | * https://www.co2meter.com/collections/co2-sensors |
| | ozone sensors |
| | * MQ131 Ozone O3 Gas Sensor |
| | * 3SP-O3-20 https://www.spec-sensors.com/product/ozone-sensor/ |
| | dust particles |
| | * https://learn.adafruit.com/pm25-air-quality-sensor/arduino-code |
| | * https://www.instructables.com/id/Arduino-Powered-Dust-Particles-Monitoring-Station/ |
| | * https://www.instructables.com/id/How-to-Interface-With-Optical-Dust-Sensor/ |
| | humidity/temperature |
| | * https://learn.adafruit.com/am2315-encased-i2c-temperature-humidity-sensor |
| | BME280 I2C or SPI Temperature Humidity Pressure Sensor |
| | * https://www.adafruit.com/product/2652 |
| | more partially interesting things (interesting combination UV gas temp/hum) |
| | * https://learn.adafruit.com/adafruit-io-air-quality-monitor |
| | cloud sensor (expensive) |
| | * http://diffractionlimited.com/product/portable-cloud-sensor/ |
| | solar operated rpi |
| | * https://www.youtube.com/watch?v=YpAYDcW_Jx0 |
| | * https://www.youtube.com/watch?v=pOpqQs_u5mU |
| | * https://www.youtube.com/watch?v=ZMZCBaCXruA |
| | |
| | First test and introduction: RPI sunlight sensing project |
| | * https://www.switchdoc.com/2016/10/simple-iot-sunlight-sensing-raspberry-pi-project-part-1/ |
| | * https://shop.switchdoc.com/products/grove-sunlight-ir-uv-i2c-sensor |
| | * http://wiki.seeedstudio.com/Grove-Sunlight_Sensor/ |
| | * also available on adafruit https://learn.adafruit.com/adafruit-si1145-breakout-board-uv-ir-visible-sensor/overview |
| | |
| | ... and if we need to add a weather station (wind dir/speed temp hum barometer CO2 particles) expand use maybe a peer-to-peer network with arduinos and raspberry pis and a homeserver? (ask gepeto and dom) |
| | |
| | ==== the future is as speculative as the past? ==== |
| | |
| expand the 'studio as organizm (Kra-Sao)' and the Tube-Observatory with mobile units (to be placed in several places): | expand the 'studio as organizm (Kra-Sao)' and the Tube-Observatory with mobile units (to be placed in several places): |
| | |
| * sun (light, colour) and wind (air flow) | * sun (light, colour) and wind (air flow) |
| * ozone, CO2 and particles | * ozone, CO2 and particles |
