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Collection of useful scada/iot tools designed to run on Raspberry Pi and similar embedded linux platforms.

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oasis-main/oasis-rpi

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Overview

oasis-rpi, developed by Oasis-X, is an open-source toolkit for IoT applications. It is a configurable nervous system that provides sensing, data collection, environmental control, equipment automation, and remote monitoring functionality. This codebase is maintained with the goal to offer these capabilities to everyone. Users are encouraged to contribute data, projects, and technical expertise. See Contributing for details. Note: this software is currently under active development. All functions can be deployed with a RaspberryPi (scheduling, PID control, data & networking management) + an Arduino (real-time analog & digital sensors).

This toolkit can be deployed using a RaspberryPi (for scheduling, PID control, data & networking management) + an Arduino (for real-time analog & digital sensors).

The active system is controllable via web interface at https://dashboard.oasis-x.io, where we offer additional cloud tools. Alternatively, all oasis-rpi instances can be managed asynchronously through the importable python API.

The repository includes:

  1. Python setup scripts
  2. Configuration files
  3. Arduino/microcontroller "minion" files
  4. Shell setup scripts

Quick-Start Guide for Raspberry Pi

sudo raspi-config
  • setup your internet: System Options -> Wireless LAN -> follow prompt
  • setup your camera: Interface Options -> Legacy Camera -> Yes
  • (optional, recommended) security: System Options -> Password -> follow prompt
  • (optional) remote access: Interface Options -> SSH -> Yes
  • (optional) remote acess: Interface Options -> Remote GPIO -> Enable
  • (opional) on-device peripherals: Interface Options -> I2C -> Yes
  • (opional) on-device peripherals: Interface Options -> SPI -> Yes
sudo apt-get update -y
sudo apt-get install git -y
git clone https://github.com/oasis-main/oasis-rpi.git 
cd oasis-rpi
. install.sh

To validate everything went smoothly, start the virtual env and test the main process with:

cd oasis-rpi
. start.sh

If successful, the above should run a ~15-30 second setup flow that ends with a statement indicating the "core process is deactivated."

Complete Firmware Guide

Raspberry Pi Setup

Users may using the setup scripts to build the repository and its requirements onto a fresh install of Raspbian Buster Lite (Release 05/07/2021). A pre-built image will be released alongside our next generation of devices for easier setup and deployment.

Using Setup Scripts

Install Raspbian Lite onto your Raspberry Pi:

  1. Download Buster Lite from official download site. The firmware will not work on newer releases which utilize LibCamera instead of raspi-still.
  2. Download Balena Etcher.
  3. Connect a microSD card to your personal computer.
  4. Format the microSD card in the MS-DOS (FAT) style using your operating system's disk formatting utility.
  5. Open Balena Etcher and follow the on-screen instructions to flash the image to your microSD.
  6. Place the SD card into the front slot of the Raspberry Pi.
  7. Connect a keyboard, monitor, and sufficient power supply to the Pi.

Wait for the Pi to boot, then enter the following when prompted for a username and password:

raspberrypi login: pi
Password: raspberry

When the prompt appears, enter sudo raspi-config. Using the arrow keys to navigate, set Localisation Options > WLAN Country according to your locale. Next, select Interface Options > Camera and turn the camera on. Finally, select System Options > Wireless LAN and enter the name and password for your home WiFi network.

1. Setup Rasppberry Pi

Download 32-bit Raspberry Pi OS Lite and double click to uncompress: https://downloads.raspberrypi.org/raspios_lite_armhf/images/raspios_lite_armhf-2022-04-07/2022-04-04-raspios-bullseye-armhf-lite.img.xz

Use Disk Utility or an equivalent tool to format a micro SD card to MS-DOS(FAT), download the Raspberry Pi Imager (https://www.raspberrypi.com/software/), open the application, and follow onscreen instructions to flash the OS image obtained in step 1.

Connect to the Raspberry Pi via HDMI monitor & keyboard (or your preferred setup), plug it in, and log in with the default password ('pi', 'raspberry') on RPiOS Buster or set your own password (default in RPiOS Bullseye). Enter:

  1. Setup your Raspberry Pi:
sudo raspi-config

2. Install oasis-rpi

  • Set up your internet: System Options -> Wireless LAN -> follow prompt
  • Set up your camera: Interface Options -> Legacy Camera -> Yes
  • (Optional, recommended) security: System Options -> Password -> follow prompt
  • (Optional) remote access: Interface Options -> SSH -> Yes
  • (Optional) remote access: Interface Options -> Remote GPIO -> Enable
  • (Optional) on-device peripherals: Interface Options -> I2C -> Yes
  • (Optional) on-device peripherals: Interface Options -> SPI -> Yes
sudo apt-get update -y
sudo apt-get install git -y
git clone https://github.com/oasis-main/oasis-rpi.git 
cd oasis-rpi
. install.sh

To test if the installation went smoothly:

cd oasis-rpi
. start.sh

If successful, the above should run a second setup flow that ends with a statement indicating the "core process is deactivated."

3. Configure Microcontroller, Peripheral Devices, Activated Features, and Startup

If you plan on using sensors, then the microcontroller (usually an arduino) should manage them and print the data it collects to serial as a dict/json, which is received by the RPi.

For example: ''' {"temperature": "0", "humidity": "0", "vpd": "0", "water_low": "0", "co2": "0", "lux": "0", "ph": "0", "substrate_moisture": "0", "tds": "0"} '''

is a valid data format for the arduino to output. It can alo take a command from the RPi to control Neopixel LEDs as the headless status indicator. All valid measurement types can be found in the "sensor_data.json" file that was created in the "configs" folder on install.

You can configure all of this yourself, or follow these instructions and use one of our example programs in the 'minions' folder.

  1. Download the Arduino IDE (on your personal computer) from the official download site.
  2. Plug the Arduino into your personal computer via USB.
  3. Select and download one of the c++ sketch folders found in the "minions" directory. The functions of each are indicated with the naming convention "Oasis_component1_component2.ino"
  4. Install the required libraries using Arduino IDE or your tool of choice, the compile upload your sketch onto the board.
  5. Plug the Arduino into the Pi via USB. The Pi will automatically establish a connection and communicate with the arduino on program startup.

The oasis-rpi software is configured to use GPIO Pins for interfacing with relays and push buttons. The pin mapping is given in hardware_config.json:

''' {"equipment_gpio_map": { "heat_relay": 14, "humidifier_relay": 15, "fan_relay": 18, "light_relay": 23, "water_relay": 24, "air_relay": 25, "dehumidifier_relay": 8 }, "button_gpio_map": { "start_stop_button": 17, "connect_internet_button": 27, "action_button": 22 } } '''

Capable makers can wire this up themselves as described in the prototype wiring diagram, or purchase specialty ready-to-go hardware from us directly.

Note: We focus on integrating a faily standard set of popular AC relays for powering high-power electronic appliances. Assemble the AC Relay & Power Circuit at your own risk. Wiring up alternating current from power mains is extremely dangerous, so much that a single mistake can lead to serious injury or even death! Because of this, we recommend doing the AC part of this project only if you are an INTERMEDIATE to ADVANCED engineer only. If you or someone on your team does not have experience working with high voltage, please consult a professional electrician before doing so. You can also sub out any normally-closed DC relay which will take a digital, or simply deploy the camera and sensor modules separately for data collection without power control. You can choose what you use!

oasis-rpi comes with imaging capabilities that make us of the Raspberry Pi's built-in camera stack. You can view these utilities in the "imaging" folder, and toggle the NDVI in feature_toggles,json(more on this next), which is an image analysis technique that can be used to diagnose plant health in the near-infrared using the Pi Noir Camera.

Finally, edit "feature_toggles.json" in 'configs' to tell the system what capabilities you are using (and which ones you are not, as they are not set up). The ones listed here are currently available. Please see the minions folder for compatible microcontroller programs.

''' {"temperature_sensor": "1", "humidity_sensor": "1", "vpd_calculation": "1", "water_level_sensor": "1", "co2_sensor": "1", "lux_sensor": "1", "ph_sensor": "0", "tds_sensor": "0", "substrate_moisture_sensor": "0", "heater": "1", "heat_pid": "1", "humidifier": "1", "hum_pid": "1", "dehumidifier": "1", "dehum_pid": "1", "fan": "1", "fan_pid": "1", "light": "1", "water": "1", "water_pid": "1", "air": "1", "camera": "1", "ndvi": "1", "save_images": "1", "save_data": "1", "onboard_led": "0", "debug": "0", "action_button": "1", "action_water": "1", "action_camera": "0"} '''

Now run your configuration of the core program with

''' cd oasis-rpi source oasis_venv_pi/bin/activate python3 main.py run '''

You should see the core process start and run without error, with the exception of a single python 'requests' dependency conflict. Check to make sure everything is functioning as expected.

Now that we know the main and core process can run without errors, let's create an background process to run when the Pi boots up (runs through systemd):

. setup_scripts/optimize_boot.sh
. setup_scripts/setup_systemd.sh
sudo reboot

Alternatively, use these commands (runs through rc.local):

. setup_scripts/optimize_boot.sh
. setup_scripts/setup_rclocal.sh
sudo reboot

4. Use with Local API & Button Interface (internet not required)

To start the core process and begin collecting data + contolling your environment, you can press the 'start_stop' button on your system. Alternatively, open up a python3 shell in the oasis-rpi directory and run:

import api
api.start_core()
api.stop_core()

You can use this api to change device settings, fetch data, and connect to the Oasis Network. To view all available features, take a look at api.py or open a python terminal and run: ''' import api dir(api) '''

5. Use with Oasis Network for Dashboard, Remote Monitoring, & AI (internet required)

Press the 'connect_internet' button on your system. Alternatively, you may open up a python3 shell in the oasis-rpi directory and run:

import api
api.connect_device()

The device will reboot as an access point, at which point you may connect to the 'Oasis-X' local wifi network. The password is 'community' and can be changed by running /setup_scripts/change_local_wpa.sh

Once connected, open up a new tab and navigate to http://192.168.4.1/ Enter your oasis email, oasis password, local wifi name, local wifi password, and hit the launch button. You'll get a success message and the wifi network should dissapear within a minute

Rejoin your normal internet and go to https://dashboard.oasis-x.io/ to view and control your device.

Sample Projects

oasis-rpi provides a highly modular interface with countless possible applications as well as a gallery of existing oasis-rpi applications:

  • time-lapse cameras
  • incubators
  • mushroom growing chambers
  • hydroponic gardens
  • outdoor environmental monitoring
  • petri desh habitats
  • automated irrigation
  • much more!

If successful, the above should run a setup flow that ends with a statement indicating the "core process is deactivated."

Contributing

We encourage users to contribute data, projects, and technical expertise. Open-source contributors are welcome, and we are currently accepting pull requests! Contact hello@oasis-x.com with questions or proposals.