Difference between revisions of "Sensor-data-bridge"

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* Forwards measurement data to https://cayenne.mydevices.com, you configure the username/password/clientid by adding a device attribute in TheThingsNetwork console  
 
* Forwards measurement data to https://cayenne.mydevices.com, you configure the username/password/clientid by adding a device attribute in TheThingsNetwork console  
 
* Supports Cayenne payload format for the data encoding, a custom payload format for SPS30 data (includes particle counts)
 
* Supports Cayenne payload format for the data encoding, a custom payload format for SPS30 data (includes particle counts)
 +
* Supports JSON payload format for the data encoding, you can specify in the config file which JSON fields are used
 
* Handles particulate matter data (PM10, PM4.0, PM2.5, PM1.0), temperature, humidity, barometric pressure
 
* Handles particulate matter data (PM10, PM4.0, PM2.5, PM1.0), temperature, humidity, barometric pressure
 +
* Handles sound/noise data (LA EQ, and min/max value)
 
* Can be run as a systemd service, so it automatically restarts in case the software would crash
 
* Can be run as a systemd service, so it automatically restarts in case the software would crash
  

Revision as of 11:04, 31 January 2022

Project sensor-data-bridge
Loraluftdatenforwarder.png
Collects sensor data, forwards it to sensor.community/opensense/etc
Status In progress
Contact bertrik
Last Update 2022-01-31

What is this

This is a companion project of LoraWanDustSensor.

It takes airborne particulate matter measurement data transferred through TheThingsNetwork and forwards it to online databases:

Project on Github: https://github.com/bertrik/sensor-data-bridge

Features

  • Picks up particulate matter measurement data received through TheThingsNetwork, using their "v3" infrastructure
  • Forwards measurement data to https://sensor.community
  • Forwards measurement data to https://opensensemap.org, you can configure the opensense-id by adding a device attribute in TheThingsNetwork console
  • Forwards measurement data to https://cayenne.mydevices.com, you configure the username/password/clientid by adding a device attribute in TheThingsNetwork console
  • Supports Cayenne payload format for the data encoding, a custom payload format for SPS30 data (includes particle counts)
  • Supports JSON payload format for the data encoding, you can specify in the config file which JSON fields are used
  • Handles particulate matter data (PM10, PM4.0, PM2.5, PM1.0), temperature, humidity, barometric pressure
  • Handles sound/noise data (LA EQ, and min/max value)
  • Can be run as a systemd service, so it automatically restarts in case the software would crash

Next steps

  • package the application so it can easily run in a docker container
  • add support for auto-localization through a scan of surrounding WiFi access-points and a geolocation service (google, mozilla), see h
  • add support for NB-IOT modem with t-mobile backend, see my Sim7020 project
  • add support for other backends, e.g. feinstaub-app?

Running in Docker

This is experimental, I'm not very experienced with Docker myself.

The plan:

  1. Add a Dockerfile. This is basically a description of how to build a docker image.
  2. Add a docker-compose configuration. This tells how to bring up the docker container, what configuration to inject, network ports to pass
  3. Add a set of gitlab actions, that builds the Dockerfile (calling gradle to build the java distribution) and uploads it to github

Requirements

You need the following:

  • a server that is always on and connected to the internet, can be Linux or Windows
  • a Java installation (JDK to compile), at least version 8
  • some configuration on TheThingsNetwork side
  • some configuration of my application (YAML file)

Compilation

To compile the software:

  • clone the software from my github archive
 git clone https://github.com/bertrik/sensor-data-bridge.git
  • enter the application directory
 cd sensor-data-bridge
  • run the gradle script to build the software (Linux):
 ./gradlew assemble

or (Windows):

 gradlew assemble
  • the application zip & tar is now available in sensor-data-bridge/sensor-data-bridge/build/distributions

To update to the latest version:

  • Update software from github archive:
 git pull
  • perform the last two steps above again

Installation

Unzip the distribution file somewhere on your system. I put it in my home directory, for example

 cd
 tar xvf code/sensor-data-bridge/sensor-data-bridge/build/distributions/sensor-data-bridge.tar

Configuration

Node configuration

The particulate matter measurement device needs to send data in the Cayenne format. I used the following conventions:

  • PM10 is encoded as analog value on channel 1
  • PM2.5 is encoded as analog value on channel 2
  • PM1.0 is encoded as analog value on channel 0 (optional)
  • PM4.0 is encoded as analog value on channel 4 (optional)
  • Temperature is encoded using standard Cayenne encoding (optional)
  • Humidity is encoded using standard Cayenne encoding (optional)
  • Barometric pressure is encoded using standard Cayenne encoding (optional)

The SPS30 produces mass concentration data in 4 categories, particle count in 5 categories, plus particle size. Format:

  • 16-bit (big endian) PM1.0 mass concentration (unit 0.1)
  • 16-bit (big endian) PM2.5 mass concentration (unit 0.1)
  • 16-bit (big endian) PM4.0 mass concentration (unit 0.1)
  • 16-bit (big endian) PM10 mass concentration (unit 0.1)
  • 16-bit (big endian) PM0.5 number concentration (unit 1)
  • 16-bit (big endian) PM1.0 number concentration (unit 1)
  • 16-bit (big endian) PM2.5 number concentration (unit 1)
  • 16-bit (big endian) PM4.0 number concentration (unit 1)
  • 16-bit (big endian) PM10 number concentration (unit 1)
  • 16-bit (big endian) typical particle size (unit nm)

A total of 20 bytes. This is sent on LoRaWAN port 30. Temperature and humidity is not encoded.

TheThingsNetwork application/device configuration

TTN API key rights

You need to define an 'application' on TheTheThingsNetwork.

  • Go the TTN console: https://console.cloud.thethings.network/ and log in
  • You need an 'application', create a new one, or use an existing one
  • Within the application you need a 'device', so create a new one, or use an existing one:
    • Use OTAA, LoRaMac version 1.0.3
    • Enter the device EUI as displayed on the display
    • Use the application keys as specified in my LoraWanDustSensor page
  • You need an API key
    • Create this on the TTN console, grant individual rights as shown in the screenshot
    • NOTE: you have only one chance to copy this key somewhere, so copy/paste it locally to a text file or something

Configuration

To configure the application:

  • Start the application without a configuration file, this will create a default template, stop the application again
 cd sensor-data-bridge
 bin/sensor-data-bridge
 (ctrl-C)
  • Edit the configuration YAML file, example:
---
ttn:
  mqtt_url: "tcp://eu1.cloud.thethings.network"
  identity_server_url: "https://eu1.cloud.thethings.network"
  identity_server_timeout: 20
  apps:
  - name: "particulatematter"
    key: "NNSXS......."
    encoding: "CAYENNE"
senscom:
  url: "https://api.sensor.community"
  timeout: 20
opensense:
  url: "https://api.opensensemap.org"
  timeout: 20

So:

  • enter the name of your application
  • enter the TTN API key you saved earlier
  • other defaults are probably OK

Sensor.community

TODO

  • Go to https://devices.sensor.community/ and log in
  • Register a node with id 'TTN-<device-EUI-as-shown-on-display>' (without the spaces or hyphens, e.g. 'TTN-0000547AF1BF713C')
  • Register it with the proper configuration, e.g. SDS011 with BME280

Opensensemap

  • Go to opensensemap.org and log in
    • Create an opensense node with the proper configuration
    • Copy the opensensenmap 'box id', a long hexadecimal string
  • Go the TTN console: https://console.cloud.thethings.network/ and log in
    • Add an attribute for the device, under 'General settings', name = 'opensense-id', value = boxid that you copied from opensensemap.org
  • The mapping from TTN-id to boxid is refreshed by the forwarder once an hour, so within an hour the forwarding to opensensemap.org starts

Cayenne myDevices

  • Go to https://cayenne.mydevices.com/ and log in
    • Add a new node, TODO
  • Go to TTN console and log in
    • Add attributes for the device, under 'General settings'
      • attribute name = 'mydevices-username', value = MQTT username from cayenne mydevices dashboard
      • attribute name = 'mydevices-password', value = MQTT password from cayenne mydevices dashboard
      • attribute name = 'mydevices-clientid', value = Client ID from cayenne mydevices dashboard

Work in progress

Forwarding noise data

How it is encoded in the sensor.community firmware:

  • Three values are sent in the JSON to sensor.community:
    • "noise_LAeq", value in dB(A), meaning?
    • "noise_LA_min", value in dB(A), some kind of minimum
    • "noise_LA_max", value in dB(A), some kind of maximum

I think these can be encoded in Cayenne as a simple analog value (which has a range of approximately -327..327 with a resolution of 0.01. Just need to assign a channel number to it.

Values are read from the noise sensor as follows:

  • call to dnms_calculate_leq()
  • call to dnms_read_data_ready(&data_ready) returns 0 if OK and (data_ready != 0)
  • call to dnms_read_leq(&dnms_values) returns 0 if OK
  • firmware applies a "correction" by adding a fixed offset

Measurement values are encoded as 32-bit units, interpreted as 32-bit floats.

References: