Online measurements

The online measurements are an experimental approach, where data from continuously running measurement devices are directly plotted in web in real time. This enables performing online experiments, recording & collecting measurement data over a long time interval, estimating a statistical significance of specific events/measurement aproaches. To update data, press RELOAD button in your browser.


Available devices

  1. Phytosensing system
  2. Impedance Spectroscope
  3. dpH device
  4. Online experimets with regression analysis

P1. Phytosensing system (MU ID=10), current status: ONLINE

  • data sampling: 60 sec.
  • species: Dieffenbachia Seguine Tropic Snow
  • available data windows: 1 min, 10 min, 1 hour, 2 hours, 6 hours, 12 hours, 24 hours, 2 days, 3 days
  • available measurement channels:
    • main sensor channels: steam water movement, leaf transpiration
    • secondary sensor channels: soil moisture, air humidity, illumination, air pressure, RF power 50Mhz-3Ghz, air temperature 
  • available acuators: RGB LEDs, water pumpe
  • see more: the Flora Robotica project, the EIS spectrometer
  • to get access to this sensor: info(at)cybertronica.co

link to online data plots

P1a. Electrophyology measurements to the phytosensing system P1 (MU ID=7), current status: ONLINE

  • data sampling: 10 sec.
  • species: Dieffenbachia Seguine Tropic Snow
  • available data windows: 1 min, 10 min, 1 hour, 2 hours, 6 hours, 12 hours, 24 hours, 2 days, 3 days
  • available measurement channels:
    • main sensor channels: electrophysiology: two channels of biopotentials (with Inst.OpAmp & PGA), two channels of tissue conductivity at 5kHz (RMS impedance, FRA phase)
    • secondary sensor channels: RF power 50Mhz-3Ghz, air temperature, PCB temperature, environmental light, 3D magnetic field, 3D acceleromenter
  • available acuators: RGB LEDs, electrostimulation
  • see more: the Flora Robotica project, the EIS spectrometer
  • to get access to this sensor: info(at)cybertronica.co

link to online data plots

P2. Phytosensing system (MU ID=5), current status: ONLINE

  • data sampling: 10 sec.
  • species: Dracaena
  • available data windows: 1 min, 10 min, 1 hour, 2 hours, 6 hours, 12 hours, 24 hours, 2 days, 3 days
  • available measurement channels:
    • main sensor channels: electrophysiology: two channels of biopotentials (with Inst.OpAmp & PGA), two channels of tissue conductivity at 5kHz (RMS impedance, FRA phase)
    • secondary sensor channels: RF power 50Mhz-3Ghz, air temperature, PCB temperature, environmental light, 3D magnetic field, 3D acceleromenter
  • available acuators: RGB LEDs, electrostimulation
  • see more: the Flora Robotica project, the EIS spectrometer
  • to get access to this sensor: info(at)cybertronica.co

link to online data plots

P3. Phytosensing system (MU ID=6), current status: ONLINE

  • data sampling: 10 sec.
  • species: Cactaceae
  • available data windows: 1 min, 10 min, 1 hour, 2 hours, 6 hours, 12 hours, 24 hours, 2 days, 3 days
  • available measurement channels:
    • main sensor channels: electrophysiology: two channels of biopotentials (with Inst.OpAmp & PGA), two channels of tissue conductivity at 5kHz (RMS impedance, FRA phase)
    • secondary sensor channels: RF power 50Mhz-3Ghz, air temperature, PCB temperature, environmental light, 3D magnetic field, 3D acceleromenter
  • available acuators: RGB LEDs, electrostimulation
  • see more: the Flora Robotica project, the EIS spectrometer
  • to get access to this sensor: info(at)cybertronica.co

link to online data plots


S1. Impedance Spectroscope (MU ID=302001), current status: ONLINE

  • data sampling: 10 sec.;
  • available data windows: 1 min, 10 min, 1 hour, 2 hours, 6 hours, 12 hours, 24 hours, 2 days, 3 days
  • available measurement channels:
    • main sensor channels: impedance spectrum ch1, impadance spectrum ch2, differential impedance spectrum;
    • secondary sensor channels: thermostat temperature ch1, thermostat temperature ch2, PCB thermostat temperature, environmental temperature, voltage control, 3D magnetometer: axes X,Y, 3D acceleromenter: axes X,Y, RF power 50Mhz-3Ghz;
  • currently not implemented in web version (but generally available): regression analysis for pre/post experimental windows
  • entanglement access code is changing each day. How to get access code: write email to info(at)cybertronica.co
  • see more about EIS spectrometer
  • to get access to this sensor: info(at)cybertronica.co

link to online data plots

S2. Impedance Spectroscope (MU ID=302002), current status: ONLINE

  • data sampling: 15 sec.;
  • available data windows: 1 min, 10 min, 1 hour, 2 hours, 6 hours, 12 hours, 24 hours, 2 days, 3 days
  • available measurement channels:
    • main sensor channels: impedance spectrum ch1, impadance spectrum ch2, differential impedance spectrum;
    • secondary sensor channels: thermostat temperature ch1, thermostat temperature ch2, PCB thermostat temperature, environmental temperature, voltage control, 3D magnetometer: axes X,Y, 3D acceleromenter: axes X,Y, RF power 50Mhz-3Ghz;
  • currently not implemented in web version (but generally available): regression analysis for pre/post experimental windows
  • entanglement access code is changing each day. How to get access code: write email to info(at)cybertronica.co
  • see more about EIS spectrometer
  • to get access to this sensor: info(at)cybertronica.co

link to online data plots

S3. Impedance Spectroscope (MU ID=302003), current status: ONLINE (used for internal purposes)

  • data sampling: 15 sec.;
  • available data windows: 1 min, 10 min, 1 hour, 2 hours, 6 hours, 12 hours, 24 hours, 2 days, 3 days
  • available measurement channels:
    • main sensor channels: impedance spectrum ch1, impadance spectrum ch2, differential impedance spectrum;
    • secondary sensor channels: thermostat temperature ch1, thermostat temperature ch2, PCB thermostat temperature, environmental temperature, voltage control, 3D magnetometer: axes X,Y, 3D acceleromenter: axes X,Y, RF power 50Mhz-3Ghz;
  • currently not implemented in web version (but generally available): regression analysis for pre/post experimental windows
  • entanglement access code is changing each day. How to get access code: write email to info(at)cybertronica.co
  • see more about EIS spectrometer
  • to get access to this sensor: info(at)cybertronica.co

link to online data plots

S4. Impedance Spectroscope (MU ID=302004), current status: ONLINE (used for internal purposes)

  • data sampling: 15 sec.;
  • available data windows: 1 min, 10 min, 1 hour, 2 hours, 6 hours, 12 hours, 24 hours, 2 days, 3 days
  • available measurement channels:
    • main sensor channels: impedance spectrum ch1, impadance spectrum ch2, differential impedance spectrum;
    • secondary sensor channels: thermostat temperature ch1, thermostat temperature ch2, PCB thermostat temperature, environmental temperature, voltage control, 3D magnetometer: axes X,Y, 3D acceleromenter: axes X,Y, RF power 50Mhz-3Ghz;
  • currently not implemented in web version (but generally available): regression analysis for pre/post experimental windows
  • entanglement access code is changing each day. How to get access code: write email to info(at)cybertronica.co
  • see more about EIS spectrometer
  • to get access to this sensor: info(at)cybertronica.co

link to online data plots


D1. dpH device (MU ID=7), current status: OFFLINE

  • data sampling: 10 sec.;
  • available data windows: 1 min, 10 min, 1 hour, 2 hours, 6 hours, 12 hours, 24 hours, 2 days, 3 days
  • available measurement channels:
    • main sensor channels: pH1, pH2, differential pH;
    • secondary sensor channels: thermostat temperature ch1, thermostat temperature ch2, PCB thermostat temperature, environmental temperature, voltage control, 3D magnetometer: axes X,Y, 3D acceleromenter: axes X,Y;
  • see more about the dpH device
  • currently not implemented in web version (but generally available): regression analysis for pre/post experimental windows
  • entanglement access code is changing each day. How to get access code: write email to info(at)cybertronica.co

link to online data plots

D2. dpH device (MU ID=8), current status: OFFLINE

  • data sampling: 10 sec.;
  • available data windows: 1 min, 10 min, 1 hour, 2 hours, 6 hours, 12 hours, 24 hours, 2 days, 3 days
  • available measurement channels:
    • main sensor channels: pH1, pH2, differential pH;
    • secondary sensor channels: thermostat temperature ch1, thermostat temperature ch2, PCB thermostat temperature, environmental temperature, voltage control, 3D magnetometer: axes X,Y, 3D acceleromenter: axes X,Y;
  • see more about the dpH device
  • currently not implemented in web version (but generally available): regression analysis for pre/post experimental windows
  • entanglement access code is changing each day. How to get access code: write email to info(at)cybertronica.co

link to online data plots

D3. dpH device (MU ID=9), current status: OFFLINE

  • data sampling: 10 sec.;
  • available data windows: 1 min, 10 min, 1 hour, 2 hours, 6 hours, 12 hours, 24 hours, 2 days, 3 days
  • available measurement channels:
    • main sensor channels: pH1, pH2, differential pH;
    • secondary sensor channels: thermostat temperature ch1, thermostat temperature ch2, PCB thermostat temperature, environmental temperature, voltage control, 3D magnetometer: axes X,Y, 3D acceleromenter: axes X,Y;
  • see more about the dpH device
  • currently not implemented in web version (but generally available): regression analysis for pre/post experimental windows
  • entanglement access code is changing each day. How to get access code: write email to info(at)cybertronica.co

link to online data plots


Online experimets with regression analysis (all dpH devices)

Regression analysis requires a time slot for background measurements before experiment, usually 3 hours - background measurements, 3 hours - online measurements. For this reason 24 hours ( a full day) are devided into fixed time intervals: 0-3, 6-9, 12-15, 18-21 are background measurements; 3-6, 9-12, 15-18, 21-24 are online measurements windows. The current slot for online measurements is depicted with a gray bar. When for any reason the regression analysis is not required, the differential pH is available anytime.    


DISCLAIMER

This service means free of charge, open-science approach of experimental nature. When using this service, its experimental character in relation to methodology, equipment or accuracy should be always considered. Cybertronica Research does not assume any liability arising out of the application or use of any part of this service, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages of any kind.  Cybertronica Research can anytime change this service, add/remove diverse functionality or stop it. Cybertronica Research follows the data protection rules, any requests/data exchange remain confidential as long as other agreements with corresponding partners are not achieved. Online devices can go for a short time in maintenance mode. REMEMBER A SINGLE MEASUREMENT HAS A PROBABILISTIC NATURE. BEFORE DRAWING ANY CONCLUSIONS, A STATISTICALLY SIGNIFICANT NUMBER OF INDEPENDENT ATTEMPTS (>30) SHOULD BE UNDERTAKEN.

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