Skip to content

Builds a custom Raspberry Pi image for robotics

License

Notifications You must be signed in to change notification settings

jkotar3/neurobionicspi

 
 

Repository files navigation

neurobionicspi: A CI Tool to Configure Embedded Hardware for Robotics

U-M Neurobionics RPi4 Build

The purpose of this tool is to build an up-to-date operating system/image for a Raspberry Pi that can be used headless/GUI-less to control autonomous / remote robotic systems. It was built by the Neurobionics Lab at the University of Michigan to solve two major challenges:

  • Maintaining a stable, consistent, working image for Raspberry Pis that fosters robotics research
  • Ease connectivity with local and enterprise networks to prevent use of internal lab networks

It is meant for developers or roboticists who wish to use a Raspberry Pi to control an intelligent / robotic system, where development is done remotely on a PC, and execution is run from the Raspberry Pi. In other words, this setup uses the Raspberry Pi like a microprocessor, and makes use of its networking, communications, and GPIO abilities. To access and program on the Raspberry Pi remotely, we use VSCode or WinSCP; these programs also enable shared file transfer.

The tool reconfigures an official Raspbian distro to include custom packages for robotics and automation, wireless connectivity to a known and configurable WiFi network, and it will create a fallback access point when the known wireless networks are not in range (static IP: 10.0.0.200). This enables usage of the same process and hardware when not in known Wifi network range (e.g. demos and conferences). The process also installs libraries for communication, drivers for common sensors and ICs, APIs for working with Dephy actuators and other motors.

Note

This image has only been tested on the Raspberry Pi 5 and 4. It may not work on the Raspberry Pi Zero.

How to use this tool

Step 1: Creating Secrets for Your Raspberry Pi Image

  • Start by creating your own copy of this repository. You can do this by clicking the Fork button. This will create a private repository in your GitHub account with the same default source code, which you can then customize to suit your needs.
  • Next, you need to create a few secrets in your repository. These secrets will be used to configure your Raspberry Pi image. To do this, navigate to the Settings tab in your repository, click on the Secrets and Variables dropdown link in the left sidebar, and then click on the Actions link.
  • Click on the New repository secret button and create the following secrets:
Secret Variable Description
EMAIL_ADDRESS Your email address or a comma-separated list of email addresses to receive the IP address of your Raspberry Pi
ENTNETWORK_SSID The SSID/Name for your enterprise network.
ENTNETWORK_IDENTITY The identity/username that can be used to connect to your enterprise network.
ENTNETWORK_PASSWORD The password associated with the identity/username for your enterprise network.
ENTNETWORK_PRIORITY This integer value determines the priority of the enterprise network. A higher value means higher priority. For example, if you have a home network and an enterprise network, and you want the Raspberry Pi to try connecting to the enterprise network first, you would give the enterprise network a higher priority number. If the enterprise network is not available, the Raspberry Pi will then attempt to connect to the network with the next highest priority. By default, the home network is assigned a priority of 5. If you want the Raspberry Pi to try connecting to the home network only if the enterprise network is not available, you would assign the enterprise network a priority higher than 5.
- If you are affiliated with the University of Michigan, we have created an account specifically for Raspberry Pis. You can find the credentials for this account here. If you are not affiliated with the University of Michigan and want your Raspberry Pi to connect to your university's WiFi network, please add your own enterprise network's information accordingly.
Step 2: Building Your Raspberry Pi Image

  • After setting up the secrets, the next step is to build your custom Raspberry Pi image. This process is automated using a GitHub Actions workflow.
  • To start the build process, navigate to the Actions tab in your repository. This tab is located in the top menu of your repository page.
  • In the Actions tab, you'll see a single workflow named Build Now! in the left sidebar. This workflow is responsible for building your custom Raspbian image. Click on it to view more details.
  • On the workflow page, you'll see a Run workflow dropdown button on the right side of the page. Click on this button to open a form where you can enter additional configuration details for your Raspberry Pi image.
  • Fill in the following fields in the form. Fields marked with a red asterisk (*) are required:
Field Description Required
Device The type of Raspberry Pi device you are using. Yes
Architecture The architecture of your Raspberry Pi device. Yes
Hostname The hostname for your Raspberry Pi. Yes
Username The username for your Raspberry Pi. Yes
Password The password for your Raspberry Pi. Yes
WiFi Country Code The country code for your WiFi network. Yes
Additional Network SSID The SSID of an additional network you want your Raspberry Pi to connect to. No
Additional Network Password The password for the additional network. No
Access Point SSID The SSID for the access point you want to create on your Raspberry Pi. No
Access Point Password The password for the access point. No
  • After filling in these fields, click on the Run workflow button at the bottom of the form to start the build process. The workflow will use the secrets you've set up and the information you've just entered to customize your image.
  • The build process may take some time to complete. You can monitor its progress in the Actions tab. Once the build is complete, the workflow will create a custom Raspbian image and attach it as an artifact to the workflow run.
  • To download the image, go back to the Actions tab and click on the completed workflow run. You'll see a section labeled Artifacts on the bottom of the page. Click on the artifact to download your custom Raspbian image.
  • Once you've downloaded the image, you'll need to flash it onto an SD card. You can use software like Raspberry Pi Imager, Etcher, or Rufus to do this. Follow the instructions provided by the software to flash the image onto the SD card.

If you're using the latest version of Raspberry Pi Imager, you'll be asked if you want to customize the OS. Please select 'No' to this option. The image you've built already contains the necessary customizations.

Step 3: Connecting to Your Raspberry Pi
  • Once you've flashed the custom image onto the SD card, remove it from your computer and insert it into the SD card slot on your Raspberry Pi.
  • Power on your Raspberry Pi. It will boot up using the custom image you've just flashed. This custom image includes the network configurations you've set up using the secret variables in the GitHub Actions workflow.
  • If your Raspberry Pi is able to connect to a WiFi network with internet access, it will automatically send an email to the address(es) you specified in the EMAIL_ADDRESS secret variable. This email will contain the Raspberry Pi's IP address and a few other useful details.
  • If your Raspberry Pi is unable to connect to a network with internet access, it will instead create its own wireless access point. This access point will use the SSID and password you specified in the Access Point SSID and Access Point Password fields in the GitHub Actions workflow.
  • The IP address of the Raspberry Pi when it's acting as an access point is always 10.0.0.200. To connect to the Raspberry Pi in this mode, connect your computer to the Raspberry Pi's access point using the SSID and password you specified, then use an SSH client (VSCode's Remote Explorer or Putty) to connect to the Raspberry Pi at 10.0.0.200.

Networking

Automated Network Management

Our Raspberry Pi image uses a networking structure that can operate in two modes: Access Point (AP) and Client mode.

  • Access Point (AP) Mode: In this mode, the Raspberry Pi acts like a mini Wi-Fi router. Other devices can connect to it directly, just like they would connect to a regular Wi-Fi network.

  • Client Mode: In this mode, the Raspberry Pi connects to an existing Wi-Fi network. This allows it to access the internet and interact with other devices on the same network.

The Raspberry Pi tries to connect to a known Wi-Fi network first. If it can't connect, it switches to Access Point mode, so you can connect to it directly. The routine also has a feature to refresh the network settings after a certain period. This is handy for updating the network setup without needing to restart the device. Another useful feature is the ability to update the BSSID (the identifier for a Wi-Fi network). This is especially helpful when there are multiple Wi-Fi networks available, as it lets the device connect to the strongest one.

Manual Network Management

We also provide a command-line interface (CLI) tool called neurobionicspi-cli. This tool lets you manually control the networking routine's functions. You can use it to start or stop the AP mode, display the defined networks, add a network, choose a network, update the BSSID, send the device's IP address via email, and add an email address to the recipient list. To see all the available options, use the command

sudo neurobionicspi-cli --help
Command Description
--start-ap Enable Access Point (AP) mode. This will turn your device into a wireless access point.
--stop-ap Disable Access Point (AP) mode. This will turn off the wireless access point mode and turn on client mode.
--show-networks Show defined networks. This will display a list of all networks defined in the configuration file.
--add-network $ssid $password $priority Adds a network to the wpa_supplicant configuration file but does not connect to it. Please use --select-network to connect to the network.
--select-network $index Select a network by index. This allows you to choose a network from the list of defined networks.
--update-bssid Update the BSSID in the configuration file. This will change the BSSID of the enterprise network.
--send-ip Send the IP address via email. This will send the device's current IP address to the specified email address(es).
--add-email $email_address Add an email address to the recipient list. This will add a new email address to the list of recipients for IP address notifications.

Networking Tests

We evaluated the networking capabilities of our Raspberry Pi image by conducting a series of tests in diverse environments. We rebooted the Raspberry Pi 100 times under different conditions - in stable environments with minimal interference such as research labs and workshops, in crowded settings like lobbies and atriums, and while roaming between networks. The Raspberry Pi consistently demonstrated its ability to connect to known networks and reliably send emails. The following plot illustrates the results of our tests:

Helpful File Locations

File Path Description
/etc/wpa_supplicant/wpa_supplicant-wlan0.conf WiFi network configuration file
/etc/startup_mailer.py IP address emailer script
/home/pi/.bash_profile Welcome screen/ASCII banner
/etc/neurobionicspi-cli.log Networking log file
/etc/neurobionicspi-cli.count Total number of emails sent
/etc/neurobionicspi-cli Setup files for neurobionicspi-cli service

Helpful Tools

Issues

Kindly report any issues here.

About

Builds a custom Raspberry Pi image for robotics

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • Shell 100.0%